-
1
-
-
0015619335
-
Identification of a novel cell type in peripheral lymphoid organs of mice. I. Morphology, quantitation, tissue distribution
-
Steinman RM, Cohn ZA. 1973. Identification of a novel cell type in peripheral lymphoid organs of mice. I. Morphology, quantitation, tissue distribution. J. Exp. Med. 137:1142-62
-
(1973)
J. Exp. Med.
, vol.137
, pp. 1142-1162
-
-
Steinman, R.M.1
Cohn, Z.A.2
-
2
-
-
0015949926
-
Identification of a novel cell type in peripheral lymphoid organs of mice. II. Functional properties in vitro
-
Steinman RM, Cohn ZA. 1974. Identification of a novel cell type in peripheral lymphoid organs of mice. II. Functional properties in vitro. J. Exp. Med. 139:380-97
-
(1974)
J. Exp. Med.
, vol.139
, pp. 380-397
-
-
Steinman, R.M.1
Cohn, Z.A.2
-
3
-
-
35748932377
-
Ralph Steinman: Dendritic cells bring home the Lasker
-
Bashyam H. 2007. Ralph Steinman: dendritic cells bring home the Lasker. J. Exp. Med. 204:2245-48
-
(2007)
J. Exp. Med.
, vol.204
, pp. 2245-2248
-
-
Bashyam, H.1
-
4
-
-
34948895988
-
Lasker Basic Medical Research Award. Dendritic cells: Versatile controllers of the immune system
-
Steinman RM. 2007. Lasker Basic Medical Research Award. Dendritic cells: versatile controllers of the immune system. Nat. Med. 13:1155-59
-
(2007)
Nat. Med.
, vol.13
, pp. 1155-1159
-
-
Steinman, R.M.1
-
5
-
-
84855724463
-
Remembering Ralph Steinman
-
Banchereau J, Cohn F, Inaba K, Muller B, Mellman I, et al. 2011. Remembering Ralph Steinman. J. Exp. Med. 208:2343-47
-
(2011)
J. Exp. Med.
, vol.208
, pp. 2343-2347
-
-
Banchereau, J.1
Cohn, F.2
Inaba, K.3
Muller, B.4
Mellman, I.5
-
6
-
-
80155206465
-
Retrospective Ralph M. Steinman (1943-2011)
-
Mellman I, Nussenzweig M. 2011. Retrospective. Ralph M. Steinman (1943-2011). Science 334:466
-
(2011)
Science
, vol.334
, pp. 466
-
-
Mellman, I.1
Nussenzweig, M.2
-
7
-
-
84855936472
-
Ralph Steinman (1943-2011)
-
Nussenzweig MC, Mellman I. 2011. Ralph Steinman (1943-2011). Nature 478:460
-
(2011)
Nature
, vol.478
, pp. 460
-
-
Nussenzweig, M.C.1
Mellman, I.2
-
8
-
-
84861739166
-
Ralph Steinman and dendritic cells
-
Shortman K. 2012. Ralph Steinman and dendritic cells. Immunol. Cell Biol. 90:1-2
-
(2012)
Immunol. Cell Biol.
, vol.90
, pp. 1-2
-
-
Shortman, K.1
-
9
-
-
0022384804
-
A comparison of murine epidermal Langerhans cells with spleen dendritic cells
-
Schuler G, Romani N, Steinman RM. 1985. A comparison of murine epidermal Langerhans cells with spleen dendritic cells. J. Investig. Dermatol. 85:99s-106
-
(1985)
J. Investig. Dermatol.
, vol.85
-
-
Schuler, G.1
Romani, N.2
Steinman, R.M.3
-
10
-
-
0032546352
-
Dendritic cells and the control of immunity
-
Banchereau J, Steinman RM. 1998. Dendritic cells and the control of immunity. Nature 392:245-52
-
(1998)
Nature
, vol.392
, pp. 245-252
-
-
Banchereau, J.1
Steinman, R.M.2
-
12
-
-
77349095894
-
Origin and functional heterogeneity of non-lymphoid tissue dendritic cells in mice
-
Helft J, Ginhoux F, Bogunovic M, MeradM. 2010. Origin and functional heterogeneity of non-lymphoid tissue dendritic cells in mice. Immunol. Rev. 234:55-75
-
(2010)
Immunol. Rev.
, vol.234
, pp. 55-75
-
-
Helft Jginhoux, F.1
Bogunovic, M.2
Merad, M.3
-
15
-
-
35549000134
-
Development of plasmacytoid and conventional dendritic cell subtypes from single precursor cells derived in vitro and in vivo
-
Naik SH, Sathe P, Park HY, Metcalf D, Proietto AI, et al. 2007. Development of plasmacytoid and conventional dendritic cell subtypes from single precursor cells derived in vitro and in vivo. Nat. Immunol. 8:1217-26
-
(2007)
Nat. Immunol.
, vol.8
, pp. 1217-1226
-
-
Naik, S.H.1
Sathe, P.2
Park, H.Y.3
Metcalf, D.4
Proietto, A.I.5
-
16
-
-
65249089638
-
In vivo analysis of dendritic cell development and homeostasis
-
Liu K, Victora GD, Schwickert TA, Guermonprez P, Meredith MM, et al. 2009. In vivo analysis of dendritic cell development and homeostasis. Science 324:392-97
-
(2009)
Science
, vol.324
, pp. 392-397
-
-
Liu, K.1
Victora, G.D.2
Schwickert, T.A.3
Guermonprez, P.4
Meredith, M.M.5
-
17
-
-
79953059788
-
Plasmacytoid dendritic cells: Recent progress and open questions
-
Reizis B, Bunin A, Ghosh HS, Lewis KL, Sisirak V. 2011. Plasmacytoid dendritic cells: recent progress and open questions. Annu. Rev. Immunol. 29:163-83
-
(2011)
Annu. Rev. Immunol.
, Issue.29
, pp. 163-183
-
-
Reizis, B.1
Bunin, A.2
Ghosh, H.S.3
Lewis, K.L.4
Sisirak, V.5
-
18
-
-
77951253554
-
Regulation of plasmacytoid dendritic cell development
-
Reizis B. 2010. Regulation of plasmacytoid dendritic cell development. Curr. Opin. Immunol. 22:206-11
-
(2010)
Curr. Opin. Immunol.
, vol.22
, pp. 206-211
-
-
Reizis, B.1
-
19
-
-
34250893815
-
Intrinsic and cooperative antigen-presenting functions of dendriticcell subsets in vivo
-
Villadangos JA, Schnorrer P. 2007. Intrinsic and cooperative antigen-presenting functions of dendriticcell subsets in vivo. Nat. Rev. Immunol. 7:543-55
-
(2007)
Nat. Rev. Immunol.
, vol.7
, pp. 543-555
-
-
Villadangos, J.A.1
Schnorrer, P.2
-
20
-
-
64049090893
-
Antigen presentation by dendritic cells in vivo
-
Segura E, Villadangos JA. 2009. Antigen presentation by dendritic cells in vivo. Curr. Opin. Immunol. 21:105-10
-
(2009)
Curr. Opin. Immunol.
, vol.21
, pp. 105-110
-
-
Segura, E.1
Villadangos, J.A.2
-
22
-
-
84861698980
-
Lymph node homing of T cells and dendritic cells via afferent lymphatics
-
Forster R, Braun A, Worbs T. 2012. Lymph node homing of T cells and dendritic cells via afferent lymphatics. Trends Immunol. 33:271-80
-
(2012)
Trends Immunol.
, vol.33
, pp. 271-280
-
-
Forster, R.1
Braun, A.2
Worbs, T.3
-
23
-
-
84865418665
-
Deciphering the transcriptional network of the dendritic cell lineage
-
Miller JC, Brown BD, Shay T, Gautier EL, Jojic V, et al. 2012. Deciphering the transcriptional network of the dendritic cell lineage. Nat. Immunol. 13:888-99
-
(2012)
Nat. Immunol.
, vol.13
, pp. 888-899
-
-
Miller, J.C.1
Brown, B.D.2
Shay, T.3
Gautier, E.L.4
Jojic, V.5
-
24
-
-
78651486442
-
Densely interconnected transcriptional circuits control cell states in human hematopoiesis
-
Novershtern N, Subramanian A, Lawton LN, Mak RH, Haining WN, et al. 2011. Densely interconnected transcriptional circuits control cell states in human hematopoiesis. Cell 144:296-309
-
(2011)
Cell
, vol.144
, pp. 296-309
-
-
Novershtern, N.1
Subramanian, A.2
Lawton, L.N.3
Mak, R.H.4
Haining, W.N.5
-
25
-
-
0034210658
-
Mice lacking flt3 ligand have deficient hematopoiesis affecting hematopoietic progenitor cells, dendritic cells, and natural killer cells
-
McKenna HJ, Stocking KL, Miller RE, Brasel K, De Smedt T, et al. 2000. Mice lacking flt3 ligand have deficient hematopoiesis affecting hematopoietic progenitor cells, dendritic cells, and natural killer cells. Blood 95:3489-97
-
(2000)
Blood
, vol.95
, pp. 3489-3497
-
-
McKenna, H.J.1
Stocking, K.L.2
Miller, R.E.3
Brasel, K.4
De Smedt, T.5
-
26
-
-
0029661945
-
Dramatic increase in the numbers of functionally mature dendritic cells in Flt3 ligand-treated mice: Multiple dendritic cell subpopulations identified
-
Maraskovsky E, Brasel K, TeepeM, Roux ER, Lyman SD, et al. 1996. Dramatic increase in the numbers of functionally mature dendritic cells in Flt3 ligand-treated mice: multiple dendritic cell subpopulations identified. J. Exp. Med. 184:1953-62
-
(1996)
J. Exp. Med.
, vol.184
, pp. 1953-1962
-
-
Maraskovsky, E.1
Brasel, K.2
Teepem Roux, E.R.3
Lyman, S.D.4
-
27
-
-
0033214348
-
CCR7 coordinates the primary immune response by establishing functional microenvironments in secondary lymphoid organs
-
Forster R, Schubel A, Breitfeld D, Kremmer E, Renner-Muller I, et al. 1999. CCR7 coordinates the primary immune response by establishing functional microenvironments in secondary lymphoid organs. Cell 99:23-33
-
(1999)
Cell
, vol.99
, pp. 23-33
-
-
Forster, R.1
Schubel, A.2
Breitfeld, D.3
Kremmer, E.4
Renner-Muller, I.5
-
28
-
-
84864296761
-
Expression of the zinc finger transcription factor zDC (Zbtb46, Btbd4) defines the classical dendritic cell lineage
-
Meredith MM, Liu K, Darrasse-Jeze G, Kamphorst AO, Schreiber HA, et al. 2012. Expression of the zinc finger transcription factor zDC (Zbtb46, Btbd4) defines the classical dendritic cell lineage. J. Exp. Med. 209:1153-65
-
(2012)
J. Exp. Med.
, vol.209
, pp. 1153-1165
-
-
Meredith, M.M.1
Liu, K.2
Darrasse-Jeze, G.3
Kamphorst, A.O.4
Schreiber, H.A.5
-
29
-
-
84864297838
-
Zbtb46 expression distinguishes classical dendritic cells and their committed progenitors from other immune lineages
-
Satpathy AT, Wumesh KC, Albring JC, Edelson BT, Kretzer NM, et al. 2012. Zbtb46 expression distinguishes classical dendritic cells and their committed progenitors from other immune lineages. J. Exp. Med. 209:1135-52
-
(2012)
J. Exp. Med.
, vol.209
, pp. 1135-1152
-
-
Satpathy, A.T.1
Wumesh, K.C.2
Albring, J.C.3
Edelson, B.T.4
Kretzer, N.M.5
-
31
-
-
70049098070
-
Origin of the lamina propria dendritic cell network
-
Bogunovic M, Ginhoux F, Helft J, Shang L, Hashimoto D, et al. 2009. Origin of the lamina propria dendritic cell network. Immunity 31:513-25
-
(2009)
Immunity
, vol.31
, pp. 513-525
-
-
Bogunovic, M.1
Ginhoux, F.2
Helft, J.3
Shang, L.4
Hashimoto, D.5
-
32
-
-
70049099836
-
Intestinal lamina propria dendritic cell subsets have different origin and functions
-
Varol C, Vallon-Eberhard A, Elinav E, Aychek T, Shapira Y, et al. 2009. Intestinal lamina propria dendritic cell subsets have different origin and functions. Immunity 31:502-12
-
(2009)
Immunity
, vol.31
, pp. 502-512
-
-
Varol, C.1
Vallon-Eberhard, A.2
Elinav, E.3
Aychek, T.4
Shapira, Y.5
-
34
-
-
56749152272
-
Origin, homeostasis and function of Langerhans cells and other langerin-expressing dendritic cells
-
Merad M, Ginhoux F, Collin M. 2008. Origin, homeostasis and function of Langerhans cells and other langerin-expressing dendritic cells. Nat. Rev. Immunol. 8:935-47
-
(2008)
Nat. Rev. Immunol.
, vol.8
, pp. 935-947
-
-
Merad, M.1
Ginhoux, F.2
Collin, M.3
-
36
-
-
79955539937
-
The acquisition of antigen cross-presentation function by newly formed dendritic cells
-
Sathe P, Pooley J, Vremec D, Mintern J, Jin JO, et al. 2011. The acquisition of antigen cross-presentation function by newly formed dendritic cells. J. Immunol. 186:5184-92
-
(2011)
J. Immunol.
, vol.186
, pp. 5184-5192
-
-
Sathe, P.1
Pooley, J.2
Vremec, D.3
Mintern, J.4
Jin, J.O.5
-
37
-
-
80054754519
-
Batf3-dependent CD11blow/-peripheral dendritic cells areGM-CSF- independent and are not required for Th cell priming after subcutaneous immunization
-
Edelson BT, Bradstreet TR, Wumesh KC, Hildner K, Herzog JW, et al. 2011. Batf3-dependent CD11blow/-peripheral dendritic cells areGM-CSF-independent and are not required for Th cell priming after subcutaneous immunization. PLoS ONE 6:e25660
-
(2011)
PLoS ONE
, vol.6
-
-
Edelson, B.T.1
Bradstreet, T.R.2
Wumesh, K.C.3
Hildner, K.4
Herzog, J.W.5
-
38
-
-
84863008117
-
GM-CSF controls nonlymphoid tissue dendritic cell homeostasis but is dispensable for the differentiation of inflammatory dendritic cells
-
Greter M, Helft J, Chow A, Hashimoto D, Mortha A, et al. 2012. GM-CSF controls nonlymphoid tissue dendritic cell homeostasis but is dispensable for the differentiation of inflammatory dendritic cells. Immunity 36:1031-46
-
(2012)
Immunity
, vol.36
, pp. 1031-1046
-
-
Greter, M.1
Helft, J.2
Chow, A.3
Hashimoto, D.4
Mortha, A.5
-
39
-
-
0027944111
-
Adhesion between epithelial cells and T lymphocytes mediated by E-cadherin and the αeβ7 integrin
-
Cepek KL, Shaw SK, Parker CM, Russell GJ, Morrow JS, et al. 1994. Adhesion between epithelial cells and T lymphocytes mediated by E-cadherin and the αEβ7 integrin. Nature 372:190-93
-
(1994)
Nature
, vol.372
, pp. 190-193
-
-
Cepek, K.L.1
Shaw, S.K.2
Parker, C.M.3
Russell, G.J.4
Morrow, J.S.5
-
40
-
-
84856826706
-
CD64 expression distinguishes monocyte-derived and conventional dendritic cells and reveals their distinct role during intramuscular immunization
-
Langlet C, Tamoutounour S, Henri S, Luche H, Ardouin L, et al. 2012. CD64 expression distinguishes monocyte-derived and conventional dendritic cells and reveals their distinct role during intramuscular immunization. J. Immunol. 188:1751-60
-
(2012)
J. Immunol.
, vol.188
, pp. 1751-1760
-
-
Langlet, C.1
Tamoutounour, S.2
Henri, S.3
Luche, H.4
Ardouin, L.5
-
42
-
-
77952239111
-
Ontogeny and homeostasis of Langerhans cells
-
Ginhoux F, MeradM. 2010. Ontogeny and homeostasis of Langerhans cells. Immunol. Cell Biol. 88:387-92
-
(2010)
Immunol. Cell Biol.
, vol.88
, pp. 387-392
-
-
Ginhoux, F.1
Merad, M.2
-
43
-
-
33645953640
-
Langerhans cells arise from monocytes in vivo
-
Ginhoux F, Tacke F, Angeli V, Bogunovic M, Loubeau M, et al. 2006. Langerhans cells arise from monocytes in vivo. Nat. Immunol. 7:265-73
-
(2006)
Nat. Immunol.
, vol.7
, pp. 265-273
-
-
Ginhoux, F.1
Tacke, F.2
Angeli, V.3
Bogunovic, M.4
Loubeau, M.5
-
44
-
-
23444451916
-
Dendritic-cell trafficking to lymph nodes through lymphatic vessels
-
Randolph GJ, Angeli V, Swartz MA. 2005. Dendritic-cell trafficking to lymph nodes through lymphatic vessels. Nat. Rev. Immunol. 5:617-28
-
(2005)
Nat. Rev. Immunol.
, vol.5
, pp. 617-628
-
-
Randolph, G.J.1
Angeli, V.2
Swartz, M.A.3
-
45
-
-
77952238775
-
Disentangling the complexity of the skin dendritic cell network
-
Henri S, GuilliamsM, Poulin LF, Tamoutounour S, ArdouinL, et al. 2010. Disentangling the complexity of the skin dendritic cell network. Immunol. Cell Biol. 88:366-75
-
(2010)
Immunol. Cell Biol.
, vol.88
, pp. 366-375
-
-
Henri, S.1
Guilliams, M.2
Poulin, L.F.3
Tamoutounour, S.4
Ardouin, L.5
-
49
-
-
4143096772
-
CCR7 governs skin dendritic cell migration under inflammatory and steady-state conditions
-
Ohl L, Mohaupt M, Czeloth N, Hintzen G, Kiafard Z, et al. 2004. CCR7 governs skin dendritic cell migration under inflammatory and steady-state conditions. Immunity 21:279-88
-
(2004)
Immunity
, vol.21
, pp. 279-288
-
-
Ohl, L.1
Mohaupt, M.2
Czeloth, N.3
Hintzen, G.4
Kiafard, Z.5
-
50
-
-
33745712871
-
Dendritic cells in a mature stage
-
Reis e Sousa C. 2006. Dendritic cells in a mature stage. Nat. Rev. Immunol. 6:476-83
-
(2006)
Nat. Rev. Immunol.
, vol.6
, pp. 476-483
-
-
Reis, E.1
Sousa, C.2
-
51
-
-
35348968837
-
Disruption of E-cadherin-mediated adhesion induces a functionally distinct pathway of dendritic cell maturation
-
Jiang A, Bloom O, Ono S, Cui W, Unternaehrer J, et al. 2007. Disruption of E-cadherin-mediated adhesion induces a functionally distinct pathway of dendritic cell maturation. Immunity 27:610-24
-
(2007)
Immunity
, vol.27
, pp. 610-624
-
-
Jiang, A.1
Bloom, O.2
Ono, S.3
Cui, W.4
Unternaehrer, J.5
-
52
-
-
84857466255
-
Regulation and function of the E-cadherin/catenin complex in cells of the monocyte-macrophage lineage and DCs
-
Van den Bossche J, Malissen B, Mantovani A, De Baetselier P, Van Ginderachter JA. 2012. Regulation and function of the E-cadherin/catenin complex in cells of the monocyte-macrophage lineage and DCs. Blood 119:1623-33
-
(2012)
Blood
, vol.119
, pp. 1623-1633
-
-
Van Den Bossche, J.1
Malissen, B.2
Mantovani, A.3
De Baetselier, P.4
Van Ginderachter, J.A.5
-
53
-
-
34247877512
-
Mucosal dendritic cells
-
Iwasaki A. 2007. Mucosal dendritic cells. Annu. Rev. Immunol. 25:381-418
-
(2007)
Annu. Rev. Immunol.
, vol.25
, pp. 381-418
-
-
Iwasaki, A.1
-
54
-
-
22144444873
-
Heterogeneity of thymic dendritic cells
-
Wu L, Shortman K. 2005. Heterogeneity of thymic dendritic cells. Semin. Immunol. 17:304-12
-
(2005)
Semin. Immunol.
, vol.17
, pp. 304-312
-
-
Wu, L.1
Shortman, K.2
-
55
-
-
44049097818
-
The receptor tyrosine kinase Flt3 is required for dendritic cell development in peripheral lymphoid tissues
-
Waskow C, Liu K, Darrasse-Jeze G, Guermonprez P, Ginhoux F, et al. 2008. The receptor tyrosine kinase Flt3 is required for dendritic cell development in peripheral lymphoid tissues. Nat. Immunol. 9:676-83
-
(2008)
Nat. Immunol.
, vol.9
, pp. 676-683
-
-
Waskow, C.1
Liu, K.2
Darrasse-Jeze, G.3
Guermonprez, P.4
Ginhoux, F.5
-
57
-
-
79958845449
-
Factors determining the spontaneous activation of splenic dendritic cells in culture
-
Vremec D, O'Keeffe M, Wilson A, Ferrero I, Koch U, et al. 2011. Factors determining the spontaneous activation of splenic dendritic cells in culture. Innate Immunol. 17:338-52
-
(2011)
Innate Immunol.
, vol.17
, pp. 338-352
-
-
Vremec, D.1
O'Keeffe, M.2
Wilson, A.3
Ferrero, I.4
Koch, U.5
-
58
-
-
0024561128
-
The cell surface of mouse dendritic cells: FACS analyses of dendritic cells from different tissues including thymus
-
Crowley M, Inaba K, Witmer-Pack M, Steinman RM. 1989. The cell surface of mouse dendritic cells: FACS analyses of dendritic cells from different tissues including thymus. Cell. Immunol. 118:108-2559.
-
(1989)
Cell. Immunol.
, vol.118
, pp. 108-2559
-
-
Crowley, M.1
Inaba, K.2
Witmer-Pack, M.3
Steinman, R.M.4
-
59
-
-
0029009977
-
The receptor DEC-205 expressed by dendritic cells and thymic epithelial cells is involved in antigen processing
-
JiangW, Swiggard WJ, Heufler C, Peng M, Mirza A, et al. 1995. The receptor DEC-205 expressed by dendritic cells and thymic epithelial cells is involved in antigen processing. Nature 375:151-55
-
(1995)
Nature
, vol.375
, pp. 151-155
-
-
Jiang, W.1
Swiggard, W.J.2
Heufler, C.3
Peng, M.4
Mirza, A.5
-
60
-
-
33846636409
-
Differential antigen processing by dendritic cell subsets in vivo
-
Dudziak D, Kamphorst AO, Heidkamp GF, Buchholz VR, Trumpfheller C, et al. 2007. Differential antigen processing by dendritic cell subsets in vivo. Science 315:107-11
-
(2007)
Science
, vol.315
, pp. 107-111
-
-
Dudziak, D.1
Kamphorst, A.O.2
Heidkamp, G.F.3
Buchholz, V.R.4
Trumpfheller, C.5
-
61
-
-
81955164775
-
Notch2 receptor signaling controls functional differentiation of dendritic cells in the spleen and intestine
-
Lewis KL, CatonML, Bogunovic M, Greter M, Grajkowska LT, et al. 2011. Notch2 receptor signaling controls functional differentiation of dendritic cells in the spleen and intestine. Immunity 35:780-91
-
(2011)
Immunity
, vol.35
, pp. 780-791
-
-
Lewis, K.L.1
Catonml Bogunovic, M.2
Greter, M.3
Grajkowska, L.T.4
-
62
-
-
58149376454
-
Dendritic cells in the thymus contribute to T-regulatory cell induction
-
Proietto AI, vanDommelen S, Zhou P, Rizzitelli A, D'Amico A, et al. 2008. Dendritic cells in the thymus contribute to T-regulatory cell induction. Proc. Natl. Acad. Sci. USA 105:19869-74
-
(2008)
Proc. Natl. Acad. Sci. USA
, vol.105
, pp. 19869-19874
-
-
Proietto, A.I.1
Vandommelen, S.2
Zhou, P.3
Rizzitelli, A.4
D'Amico, A.5
-
63
-
-
0038406789
-
Biology of hematopoietic stem cells and progenitors: Implications for clinical application
-
KondoM, Wagers AJ, Manz MG, Prohaska SS, Scherer DC, et al. 2003. Biology of hematopoietic stem cells and progenitors: implications for clinical application. Annu. Rev. Immunol. 21:759-806
-
(2003)
Annu. Rev. Immunol.
, vol.21
, pp. 759-806
-
-
Kondo, M.1
Wagers, A.J.2
Manz, M.G.3
Prohaska, S.S.4
Scherer, D.C.5
-
64
-
-
34249683266
-
Delineation of the earliest lineage commitment steps of haematopoietic stem cells: New developments, controversies and major challenges
-
Buza-Vidas N, Luc S, Jacobsen SE. 2007. Delineation of the earliest lineage commitment steps of haematopoietic stem cells: new developments, controversies and major challenges. Curr. Opin. Hematol. 14:315-21
-
(2007)
Curr. Opin. Hematol.
, vol.14
, pp. 315-321
-
-
Buza-Vidas, N.1
Luc, S.2
Jacobsen, S.E.3
-
65
-
-
80355136629
-
Studying the mononuclear phagocyte system in the molecular age
-
Chow A, Brown BD, Merad M. 2011. Studying the mononuclear phagocyte system in the molecular age. Nat. Rev. Immunol. 11:788-98
-
(2011)
Nat. Rev. Immunol.
, vol.11
, pp. 788-798
-
-
Chow, A.1
Brown, B.D.2
Merad, M.3
-
66
-
-
0034670385
-
Development of CD8α-positive dendritic cells from a common myeloid progenitor
-
Traver D, Akashi K, Manz M, Merad M, Miyamoto T, et al. 2000. Development of CD8α-positive dendritic cells from a common myeloid progenitor. Science 290:2152-54
-
(2000)
Science
, vol.290
, pp. 2152-2154
-
-
Traver, D.1
Akashi, K.2
Manz, M.3
Merad, M.4
Miyamoto, T.5
-
67
-
-
0035383775
-
Dendritic cell potentials of early lymphoid and myeloid progenitors
-
Manz MG, Traver D, Miyamoto T, Weissman IL, Akashi K. 2001. Dendritic cell potentials of early lymphoid and myeloid progenitors. Blood 97:3333-41
-
(2001)
Blood
, vol.97
, pp. 3333-3341
-
-
Manz, M.G.1
Traver, D.2
Miyamoto, T.3
Weissman, I.L.4
Akashi, K.5
-
68
-
-
0035761466
-
Development of thymic and splenic dendritic cell populations from different hemopoietic precursors
-
Wu L, D'Amico A, Hochrein H, O'Keeffe M, Shortman K, Lucas K. 2001. Development of thymic and splenic dendritic cell populations from different hemopoietic precursors. Blood 98:3376-82
-
(2001)
Blood
, vol.98
, pp. 3376-3382
-
-
Wu, L.1
D'Amico, A.2
Hochrein, H.3
O'Keeffe, M.4
Shortman, K.5
Lucas, K.6
-
69
-
-
3142749595
-
Plasmacytoid dendritic cells activate lymphoid-specific genetic programs irrespective of their cellular origin
-
Shigematsu H, Reizis B, Iwasaki H, Mizuno S, Hu D, et al. 2004. Plasmacytoid dendritic cells activate lymphoid-specific genetic programs irrespective of their cellular origin. Immunity 21:43-53
-
(2004)
Immunity
, vol.21
, pp. 43-53
-
-
Shigematsu, H.1
Reizis, B.2
Iwasaki, H.3
Mizuno, S.4
Hu, D.5
-
70
-
-
10644270729
-
Clonal type i interferon-producing and dendritic cell precursors are contained in both human lymphoid and myeloid progenitor populations
-
Chicha L, JarrossayD, ManzMG. 2004. Clonal type I interferon-producing and dendritic cell precursors are contained in both human lymphoid and myeloid progenitor populations. J. Exp. Med. 200:1519-24
-
(2004)
J. Exp. Med.
, vol.200
, pp. 1519-1524
-
-
Chicha, L.1
Jarrossay, D.2
Manz, M.G.3
-
71
-
-
0034937916
-
Dendritic cell development from common myeloid progenitors
-
Manz MG, Traver D, Akashi K, Merad M, Miyamoto T, et al. 2001. Dendritic cell development from common myeloid progenitors. Ann. N. Y. Acad. Sci. 938:167-74
-
(2001)
Ann. N. Y. Acad. Sci.
, vol.938
, pp. 167-174
-
-
Manz, M.G.1
Traver, D.2
Akashi, K.3
Merad, M.4
Miyamoto, T.5
-
72
-
-
0041660895
-
The early progenitors of mouse dendritic cells and plasmacytoid predendritic cells are within the bone marrow hemopoietic precursors expressing Flt3
-
D'Amico A, Wu L. 2003. The early progenitors of mouse dendritic cells and plasmacytoid predendritic cells are within the bone marrow hemopoietic precursors expressing Flt3. J. Exp. Med. 198:293-303
-
(2003)
J. Exp. Med.
, vol.198
, pp. 293-303
-
-
D'Amico, A.1
Wu, L.2
-
75
-
-
0027205082
-
Thymic dendritic cells and T cells develop simultaneously in the thymus from a common precursor population
-
Ardavin C, Wu L, Li CL, Shortman K. 1993. Thymic dendritic cells and T cells develop simultaneously in the thymus from a common precursor population. Nature 362:761-63
-
(1993)
Nature
, vol.362
, pp. 761-763
-
-
Ardavin Cwu, L.1
Li, C.L.2
Shortman, K.3
-
77
-
-
0037988844
-
The lymphoid past of mouse plasmacytoid cells and thymic dendritic cells
-
Corcoran L, Ferrero I, Vremec D, Lucas K, Waithman J, et al. 2003. The lymphoid past of mouse plasmacytoid cells and thymic dendritic cells. J. Immunol. 170:4926-32
-
(2003)
J. Immunol.
, vol.170
, pp. 4926-4932
-
-
Corcoran, L.1
Ferrero, I.2
Vremec, D.3
Lucas, K.4
Waithman, J.5
-
78
-
-
14844288910
-
Lymphoid progenitors and primary routes to becoming cells of the immune system
-
Pelayo R, Welner R, Perry SS, Huang J, Baba Y, et al. 2005. Lymphoid progenitors and primary routes to becoming cells of the immune system. Curr. Opin. Immunol. 17:100-7
-
(2005)
Curr. Opin. Immunol.
, vol.17
, pp. 100-107
-
-
Pelayo, R.1
Welner, R.2
Perry, S.S.3
Huang, J.4
Baba, Y.5
-
79
-
-
30344444770
-
A clonogenic bone marrow progenitor specific for macrophages and dendritic cells
-
Fogg DK, Sibon C, Miled C, Jung S, Aucouturier P, et al. 2006. A clonogenic bone marrow progenitor specific for macrophages and dendritic cells. Science 311:83-87
-
(2006)
Science
, vol.311
, pp. 83-87
-
-
Fogg, D.K.1
Sibon, C.2
Miled, C.3
Jung, S.4
Aucouturier, P.5
-
80
-
-
67649404131
-
Blood monocytes: Development, heterogeneity, and relationship with dendritic cells
-
Auffray C, Sieweke MH, Geissmann F. 2009. Blood monocytes: development, heterogeneity, and relationship with dendritic cells. Annu. Rev. Immunol. 27:669-92
-
(2009)
Annu. Rev. Immunol.
, vol.27
, pp. 669-692
-
-
Auffray, C.1
Sieweke, M.H.2
Geissmann, F.3
-
81
-
-
33744907730
-
In situ replication of immediate dendritic cell (DC) precursors contributes to conventional DC homeostasis in lymphoid tissue
-
Diao J, Winter E, Cantin C, Chen W, Xu L, et al. 2006. In situ replication of immediate dendritic cell (DC) precursors contributes to conventional DC homeostasis in lymphoid tissue. J. Immunol. 176:7196-206
-
(2006)
J. Immunol.
, vol.176
, pp. 7196-7206
-
-
Diao, J.1
Winter, E.2
Cantin, C.3
Chen, W.4
Xu, L.5
-
82
-
-
33744473294
-
Intrasplenic steady-state dendritic cell precursors that are distinct from monocytes
-
Naik SH, Metcalf D, vanNieuwenhuijze A, Wicks I, WuL, et al. 2006. Intrasplenic steady-state dendritic cell precursors that are distinct from monocytes. Nat. Immunol. 7:663-71
-
(2006)
Nat. Immunol.
, vol.7
, pp. 663-671
-
-
Naik, S.H.1
Metcalf, D.2
Vannieuwenhuijze, A.3
Wicks, I.4
Wu, L.5
-
83
-
-
0028289244
-
Efficient presentation of soluble antigen by cultured human dendritic cells is maintained by granulocyte/macrophage colony-stimulating factor plus interleukin 4 and downregulated by tumor necrosis factor α
-
Sallusto F, Lanzavecchia A. 1994. Efficient presentation of soluble antigen by cultured human dendritic cells is maintained by granulocyte/ macrophage colony-stimulating factor plus interleukin 4 and downregulated by tumor necrosis factor α. J. Exp. Med. 179:1109-18
-
(1994)
J. Exp. Med.
, vol.179
, pp. 1109-1118
-
-
Sallusto, F.1
Lanzavecchia, A.2
-
84
-
-
0036906526
-
Langerhans cells renew in the skin throughout life under steady-state conditions
-
MeradM, ManzMG, Karsunky H, Wagers A, Peters W, et al. 2002. Langerhans cells renew in the skin throughout life under steady-state conditions. Nat. Immunol. 3:1135-41
-
(2002)
Nat. Immunol.
, vol.3
, pp. 1135-1141
-
-
Merad, M.1
Manz, M.G.2
Karsunky, H.3
Wagers, A.4
Peters, W.5
-
85
-
-
0022577964
-
Ontogeny of Ia-positive and Thy-1-positive leukocytes ofmurine epidermis
-
Romani N, SchulerG, Fritsch P. 1986. Ontogeny of Ia-positive and Thy-1-positive leukocytes ofmurine epidermis. J. Investig. Dermatol. 86:129-33
-
(1986)
J. Investig. Dermatol.
, vol.86
, pp. 129-133
-
-
Romani, N.1
Schuler, G.2
Fritsch, P.3
-
86
-
-
14244258925
-
Fetal and neonatal murine skin harbors Langerhans cell precursors
-
Chang-Rodriguez S, HoetzeneckerW, Schwarzler C, Biedermann T, Saeland S, Elbe-Burger A. 2005. Fetal and neonatal murine skin harbors Langerhans cell precursors. J. Leukoc. Biol. 77:352-60
-
(2005)
J. Leukoc. Biol.
, vol.77
, pp. 352-360
-
-
Chang-Rodriguez, S.1
Hoetzenecker, W.2
Schwarzler, C.3
Biedermann, T.4
Saeland, S.5
Elbe-Burger, A.6
-
87
-
-
73949147392
-
Langerhans cell (LC) proliferation mediates neonatal development, homeostasis, and inflammation-associated expansion of the epidermal LC network
-
Chorro L, Sarde A, Li M, Woollard KJ, Chambon P, et al. 2009. Langerhans cell (LC) proliferation mediates neonatal development, homeostasis, and inflammation-associated expansion of the epidermal LC network. J. Exp. Med. 206:3089-100
-
(2009)
J. Exp. Med.
, vol.206
, pp. 3089-3100
-
-
Chorro, L.1
Sarde, A.2
Li, M.3
Woollard, K.J.4
Chambon, P.5
-
88
-
-
84859508307
-
A lineage of myeloid cells independent of Myb and hematopoietic stem cells
-
Schulz C, Gomez Perdiguero E, Chorro L, Szabo-Rogers H, Cagnard N, et al. 2012. A lineage of myeloid cells independent of Myb and hematopoietic stem cells. Science 336:86-90
-
(2012)
Science
, vol.336
, pp. 86-90
-
-
Schulz, C.1
Gomez Perdiguero, E.2
Chorro, L.3
Szabo-Rogers, H.4
Cagnard, N.5
-
89
-
-
84864298329
-
Adult Langerhans cells derive predominantly from embryonic fetal liver monocytes with a minor contribution of yolk sac-derived macrophages
-
Hoeffel G, Wang Y, Greter M, See P, Teo P, et al. 2012. Adult Langerhans cells derive predominantly from embryonic fetal liver monocytes with a minor contribution of yolk sac-derived macrophages. J. Exp. Med. 209:1167-81
-
(2012)
J. Exp. Med.
, vol.209
, pp. 1167-1181
-
-
Hoeffel, G.1
Wang, Y.2
Greter, M.3
See, P.4
Teo, P.5
-
90
-
-
34548453209
-
Flt3 in regulation of type i interferon-producing cell and dendritic cell development
-
Onai N, Obata-Onai A, Schmid MA, ManzMG. 2007. Flt3 in regulation of type I interferon-producing cell and dendritic cell development. Ann. N. Y. Acad. Sci. 1106:253-61
-
(2007)
Ann. N. Y. Acad. Sci.
, vol.1106
, pp. 253-261
-
-
Onai, N.1
Obata-Onai, A.2
Ma, S.3
Manz, M.G.4
-
91
-
-
65349134226
-
Dendritic cell homeostasis
-
Merad M, Manz MG. 2009. Dendritic cell homeostasis. Blood 113:3418-27
-
(2009)
Blood
, vol.113
, pp. 3418-3427
-
-
Merad, M.1
Manz, M.G.2
-
92
-
-
77349105277
-
Instructive cytokine signals in dendritic cell lineage commitment
-
Schmid MA, Kingston D, Boddupalli S, Manz MG. 2010. Instructive cytokine signals in dendritic cell lineage commitment. Immunol. Rev. 234:32-44
-
(2010)
Immunol. Rev.
, vol.234
, pp. 32-44
-
-
Ma, S.1
Kingston, D.2
Boddupalli, S.3
Manz, M.G.4
-
94
-
-
31344441376
-
Activation of the Flt3 signal transduction cascade rescues and enhances type i interferon-producing and dendritic cell development
-
Onai N, Obata-Onai A, Tussiwand R, Lanzavecchia A, Manz MG. 2006. Activation of the Flt3 signal transduction cascade rescues and enhances type I interferon-producing and dendritic cell development. J. Exp. Med. 203:227-38
-
(2006)
J. Exp. Med.
, vol.203
, pp. 227-238
-
-
Onai, N.1
Obata-Onai, A.2
Tussiwand, R.3
Lanzavecchia, A.4
Manz, M.G.5
-
95
-
-
68249155389
-
The concerted action of GM-CSF and Flt3-ligand on in vivo dendritic cell homeostasis
-
Kingston D, Schmid MA, Onai N, Obata-Onai A, Baumjohann D, Manz MG. 2009. The concerted action of GM-CSF and Flt3-ligand on in vivo dendritic cell homeostasis. Blood 114:835-43
-
(2009)
Blood
, vol.114
, pp. 835-843
-
-
Kingston, D.1
Ma, S.2
Onai, N.3
Obata-Onai, A.4
Baumjohann, D.5
Manz, M.G.6
-
96
-
-
24744461881
-
Inhibition of natural type i IFN-producing and dendritic cell development by a small molecule receptor tyrosine kinase inhibitor with Flt3 affinity
-
Tussiwand R, Onai N, Mazzucchelli L, Manz MG. 2005. Inhibition of natural type I IFN-producing and dendritic cell development by a small molecule receptor tyrosine kinase inhibitor with Flt3 affinity. J. Immunol. 175:3674-80
-
(2005)
J. Immunol.
, vol.175
, pp. 3674-3680
-
-
Tussiwand, R.1
Onai, N.2
Mazzucchelli, L.3
Manz, M.G.4
-
97
-
-
57449109064
-
Lack of conventional dendritic cells is compatible with normal development and T cell homeostasis, but causes myeloid proliferative syndrome
-
Birnberg T, Bar-On L, Sapoznikov A, Caton ML, Cervantes-Barragan L, et al. 2008. Lack of conventional dendritic cells is compatible with normal development and T cell homeostasis, but causes myeloid proliferative syndrome. Immunity 29:986-97
-
(2008)
Immunity
, vol.29
, pp. 986-997
-
-
Birnberg, T.1
Bar-On, L.2
Sapoznikov, A.3
Caton, M.L.4
Cervantes-Barragan, L.5
-
98
-
-
0037443489
-
Conditional expression of murine Flt3 ligand leads to expansion of multiple dendritic cell subsets in peripheral blood and tissues of transgenic mice
-
Manfra DJ, Chen SC, Jensen KK, Fine JS, Wiekowski MT, Lira SA. 2003. Conditional expression of murine Flt3 ligand leads to expansion of multiple dendritic cell subsets in peripheral blood and tissues of transgenic mice. J. Immunol. 170:2843-52
-
(2003)
J. Immunol.
, vol.170
, pp. 2843-2852
-
-
Manfra, D.J.1
Chen, S.C.2
Jensen, K.K.3
Fine, J.S.4
Wiekowski, M.T.5
Lira, S.A.6
-
99
-
-
0034254472
-
In vivo generation of human dendritic cell subsets by Flt3 ligand
-
Maraskovsky E, Daro E, Roux E, Teepe M, Maliszewski CR, et al. 2000. In vivo generation of human dendritic cell subsets by Flt3 ligand. Blood 96:878-84
-
(2000)
Blood
, vol.96
, pp. 878-884
-
-
Maraskovsky, E.1
Daro, E.2
Roux, E.3
Teepe, M.4
Maliszewski, C.R.5
-
100
-
-
0035902607
-
Altered peptide ligand vaccination with Flt3 ligand expanded dendritic cells for tumor immunotherapy
-
Fong L, Hou Y, Rivas A, Benike C, Yuen A, et al. 2001. Altered peptide ligand vaccination with Flt3 ligand expanded dendritic cells for tumor immunotherapy. Proc. Natl. Acad. Sci. USA 98:8809-14
-
(2001)
Proc. Natl. Acad. Sci. USA
, vol.98
, pp. 8809-8814
-
-
Fong, L.1
Hou, Y.2
Rivas, A.3
Benike, C.4
Yuen, A.5
-
101
-
-
7444254061
-
CSF-1 regulation of the wandering macrophage: Complexity in action
-
Pixley FJ, Stanley ER. 2004. CSF-1 regulation of the wandering macrophage: complexity in action. Trends Cell Biol. 14:628-38
-
(2004)
Trends Cell Biol.
, vol.14
, pp. 628-638
-
-
Pixley, F.J.1
Stanley, E.R.2
-
102
-
-
0027243343
-
Identification of macrophages and dendritic cells in the osteopetrotic (op/op) mouse
-
Witmer-Pack MD, Hughes DA, Schuler G, Lawson L, McWilliam A, et al. 1993. Identification of macrophages and dendritic cells in the osteopetrotic (op/op) mouse. J. Cell Sci. 104(Pt. 4):1021-29
-
(1993)
J. Cell Sci.
, vol.104
, Issue.PART 4
, pp. 1021-1029
-
-
Witmer-Pack, M.D.1
Hughes, D.A.2
Schuler, G.3
Lawson, L.4
McWilliam, A.5
-
103
-
-
44049092407
-
Discovery of a cytokine and its receptor by functional screening of the extracellular proteome
-
Lin H, Lee E, Hestir K, Leo C, Huang M, et al. 2008. Discovery of a cytokine and its receptor by functional screening of the extracellular proteome. Science 320:807-11
-
(2008)
Science
, vol.320
, pp. 807-811
-
-
Lin, H.1
Lee, E.2
Hestir, K.3
Leo, C.4
Huang, M.5
-
104
-
-
84864152036
-
IL-34 is a tissue-restricted ligand of CSF1R required for the development of Langerhans cells and microglia
-
Wang Y, Szretter KJ, VermiW, Gilfillan S, Rossini C, et al. 2012. IL-34 is a tissue-restricted ligand of CSF1R required for the development of Langerhans cells and microglia. Nat. Immunol. 13:753-60
-
(2012)
Nat. Immunol.
, vol.13
, pp. 753-760
-
-
Wang, Y.1
Szretter, K.J.2
Vermiw Gilfillan, S.3
Rossini, C.4
-
105
-
-
84870907320
-
Stroma-derived interleukin-34 controls the development and maintenance of Langerhans cells and the maintenance of microglia
-
Greter M, Lelios I, Pelczar P, Hoeffel G, Price J, et al. 2012. Stroma-derived interleukin-34 controls the development and maintenance of Langerhans cells and the maintenance of microglia. Immunity. 37:1050-60
-
(2012)
Immunity.
, vol.37
, pp. 1050-1060
-
-
Greter, M.1
Lelios, I.2
Pelczar, P.3
Hoeffel, G.4
Price, J.5
-
106
-
-
38349157811
-
Hematopoietic cytokines
-
Metcalf D. 2008. Hematopoietic cytokines. Blood 111:485-91
-
(2008)
Blood
, vol.111
, pp. 485-491
-
-
Metcalf, D.1
-
107
-
-
0141956433
-
Biology of common βreceptor-signaling cytokines: IL-3, IL-5, and GM-CSF
-
Martinez-MoczygembaM, HustonDP. 2003. Biology of common βreceptor-signaling cytokines: IL-3, IL-5, and GM-CSF. J. Allergy Clin. Immunol. 112:653-65
-
(2003)
J. Allergy Clin. Immunol.
, vol.112
, pp. 653-665
-
-
Martinez-Moczygemba, M.1
Huston, D.P.2
-
108
-
-
0026481133
-
Generation of large numbers of dendritic cells from mouse bonemarrow cultures supplemented with granulocyte/macrophage colony-stimulating factor
-
Inaba K, Inaba M, Romani N, Aya H, Deguchi M, et al. 1992. Generation of large numbers of dendritic cells from mouse bonemarrow cultures supplemented with granulocyte/macrophage colony-stimulating factor. J. Exp. Med. 176:1693-702
-
(1992)
J. Exp. Med.
, vol.176
, pp. 1693-1702
-
-
Inaba, K.1
Inaba, M.2
Romani, N.3
Aya, H.4
Deguchi, M.5
-
110
-
-
17144417748
-
Dendritic cells as therapeutic vaccines against cancer
-
Banchereau J, PaluckaAK. 2005. Dendritic cells as therapeutic vaccines against cancer. Nat. Rev. Immunol. 5:296-306
-
(2005)
Nat. Rev. Immunol.
, vol.5
, pp. 296-306
-
-
Banchereau, J.1
Palucka, A.K.2
-
111
-
-
0031013082
-
The influence of granulocyte/macrophage colony-stimulating factor on dendritic cell levels in mouse lymphoid organs
-
Vremec D, Lieschke GJ, Dunn AR, Robb L, Metcalf D, Shortman K. 1997. The influence of granulocyte/macrophage colony-stimulating factor on dendritic cell levels in mouse lymphoid organs. Eur. J. Immunol. 27:40-44
-
(1997)
Eur. J. Immunol.
, vol.27
, pp. 40-44
-
-
Vremec, D.1
Lieschke, G.J.2
Dunn, A.R.3
Robb, L.4
Metcalf, D.5
Shortman, K.6
-
112
-
-
77952310536
-
+ dermal dendritic cells play a critical role in Th effector cell differentiation after subcutaneous immunization
-
+ dermal dendritic cells play a critical role in Th effector cell differentiation after subcutaneous immunization. J. Exp.Med. 207:953-61
-
(2010)
J. Exp.Med.
, vol.207
, pp. 953-961
-
-
King, I.L.1
Ma, K.2
Segal, B.M.3
-
113
-
-
0032842326
-
The requirement of membrane lymphotoxin for the presence of dendritic cells in lymphoid tissues
-
Wu Q, Wang Y, Wang J, Hedgeman EO, Browning JL, Fu YX. 1999. The requirement of membrane lymphotoxin for the presence of dendritic cells in lymphoid tissues. J. Exp. Med. 190:629-38
-
(1999)
J. Exp. Med.
, vol.190
, pp. 629-638
-
-
Wu, Q.1
Wang, Y.2
Wang, J.3
Hedgeman, E.O.4
Browning, J.L.5
Fu, Y.X.6
-
114
-
-
17444387421
-
Intrinsic lymphotoxin-β receptor requirement for homeostasis of lymphoid tissue dendritic cells
-
Kabashima K, Banks TA, Ansel KM, Lu TT, Ware CF, Cyster JG. 2005. Intrinsic lymphotoxin-β receptor requirement for homeostasis of lymphoid tissue dendritic cells. Immunity 22:439-50
-
(2005)
Immunity
, vol.22
, pp. 439-450
-
-
Kabashima, K.1
Banks, T.A.2
Ansel, K.M.3
Lu, T.T.4
Ware, C.F.5
Cyster, J.G.6
-
115
-
-
27744442642
-
Stimulating lymphotoxin βreceptor on the dendritic cells is critical for their homeostasis and expansion
-
Wang YG, Kim KD, Wang J, Yu P, Fu YX. 2005. Stimulating lymphotoxin βreceptor on the dendritic cells is critical for their homeostasis and expansion. J. Immunol. 175:6997-7002
-
(2005)
J. Immunol.
, vol.175
, pp. 6997-7002
-
-
Wang, Y.G.1
Kim, K.D.2
Wang, J.3
Yu, P.4
Fu, Y.X.5
-
117
-
-
0030456368
-
A role for endogenous transforming growth factor β1 in Langerhans cell biology: The skin of transforming growth factorβ1 nullmice is devoid of epidermal Langerhans cells
-
BorkowskiTA, Letterio JJ, Farr AG, Udey MC. 1996. A role for endogenous transforming growth factor β1 in Langerhans cell biology: the skin of transforming growth factorβ1 nullmice is devoid of epidermal Langerhans cells. J. Exp. Med. 184:2417-22
-
(1996)
J. Exp. Med.
, vol.184
, pp. 2417-2422
-
-
Borkowski, T.A.1
Letterio, J.J.2
Farr, A.G.3
Udey, M.C.4
-
118
-
-
0030761480
-
Flt3 ligand in cooperation with transforming growth factor-β1 potentiates in vitro development of Langerhans-type dendritic cells and allows single-cell dendritic cell cluster formation under serum-free conditions
-
Strobl H, Bello-Fernandez C, Riedl E, PicklWF, Majdic O, et al. 1997. flt3 ligand in cooperation with transforming growth factor-β1 potentiates in vitro development of Langerhans-type dendritic cells and allows single-cell dendritic cell cluster formation under serum-free conditions. Blood 90:1425-34
-
(1997)
Blood
, vol.90
, pp. 1425-1434
-
-
Strobl, H.1
Bello-Fernandez, C.2
Riedl, E.3
Picklwf Majdic, O.4
-
120
-
-
0032536795
-
Transforming growth factor β1, in the presence of granulocyte/macrophage colony-stimulating factor and interleukin 4, induces differentiation of human peripheral blood monocytes into dendritic Langerhans cells
-
Geissmann F, Prost C, Monnet JP, Dy M, Brousse N, Hermine O. 1998. Transforming growth factor β1, in the presence of granulocyte/macrophage colony-stimulating factor and interleukin 4, induces differentiation of human peripheral blood monocytes into dendritic Langerhans cells. J. Exp. Med. 187:961-66
-
(1998)
J. Exp. Med.
, vol.187
, pp. 961-966
-
-
Geissmann, F.1
Prost, C.2
Monnet, J.P.3
Dy, M.4
Brousse, N.5
Hermine, O.6
-
121
-
-
35748948090
-
Autocrine/paracrine TGFβ1 is required for the development of epidermal Langerhans cells
-
Kaplan DH, LiMO, JenisonMC, ShlomchikWD, FlavellRA, Shlomchik MJ. 2007. Autocrine/paracrine TGFβ1 is required for the development of epidermal Langerhans cells. J. Exp. Med. 204:2545-52
-
(2007)
J. Exp. Med.
, vol.204
, pp. 2545-2552
-
-
Kaplan, D.H.1
Li, M.O.2
Jenison, M.C.3
Shlomchik, W.D.4
Flavell, R.A.5
Shlomchik, M.J.6
-
122
-
-
84862987203
-
Autocrine/paracrine TGF-β1 inhibits Langerhans cell migration
-
Bobr A, Igyarto BZ, Haley KM, Li MO, Flavell RA, Kaplan DH. 2012. Autocrine/paracrine TGF-β1 inhibits Langerhans cell migration. Proc. Natl. Acad. Sci. USA 109:10492-97
-
(2012)
Proc. Natl. Acad. Sci. USA
, vol.109
, pp. 10492-10497
-
-
Bobr, A.1
Igyarto, B.Z.2
Haley, K.M.3
Li, M.O.4
Flavell, R.A.5
Kaplan, D.H.6
-
123
-
-
78649629136
-
TGF-β is required to maintain the pool of immature Langerhans cells in the epidermis
-
Kel JM, Girard-Madoux MJ, Reizis B, Clausen BE. 2010. TGF-β is required to maintain the pool of immature Langerhans cells in the epidermis. J. Immunol. 185:3248-55
-
(2010)
J. Immunol.
, vol.185
, pp. 3248-3255
-
-
Kel, J.M.1
Girard-Madoux, M.J.2
Reizis, B.3
Clausen, B.E.4
-
124
-
-
0037386339
-
Transcriptional profiling identifies Id2 function in dendritic cell development
-
Hacker C, Kirsch RD, Ju XS, Hieronymus T, Gust TC, et al. 2003. Transcriptional profiling identifies Id2 function in dendritic cell development. Nat. Immunol. 4:380-86
-
(2003)
Nat. Immunol.
, vol.4
, pp. 380-386
-
-
Hacker, C.1
Kirsch, R.D.2
Ju, X.S.3
Hieronymus, T.4
Gust, T.C.5
-
125
-
-
12144285752
-
Runx3 regulates mouse TGF-β-mediated dendritic cell function and its absence results in airway inflammation
-
Fainaru O, Woolf E, Lotem J, Yarmus M, Brenner O, et al. 2004. Runx3 regulates mouse TGF-β-mediated dendritic cell function and its absence results in airway inflammation. EMBO J. 23:969-79
-
(2004)
EMBO J.
, vol.23
, pp. 969-979
-
-
Fainaru, O.1
Woolf, E.2
Lotem, J.3
Yarmus, M.4
Brenner, O.5
-
126
-
-
84857724877
-
IRF-8 extinguishes neutrophil production and promotes dendritic cell lineage commitment in both myeloid and lymphoid mouse progenitors
-
Becker AM, Michael DG, Satpathy AT, SciammasR, Singh H, Bhattacharya D. 2012. IRF-8 extinguishes neutrophil production and promotes dendritic cell lineage commitment in both myeloid and lymphoid mouse progenitors. Blood 119:2003-12
-
(2012)
Blood
, vol.119
, pp. 2003-2012
-
-
Becker, A.M.1
Michael, D.G.2
Satpathy, A.T.3
Sciammasr Singh, H.4
Bhattacharya, D.5
-
127
-
-
79251591936
-
Irf8 regulates macrophage versus neutrophil fate during zebrafish primitive myelopoiesis
-
Li L, JinH, Xu J, Shi Y, Wen Z. 2010. Irf8 regulates macrophage versus neutrophil fate during zebrafish primitive myelopoiesis. Blood 117:1359-69
-
(2010)
Blood
, vol.117
, pp. 1359-1369
-
-
Li, L.1
Jinh Xu, J.2
Shi, Y.3
Wen, Z.4
-
128
-
-
16044369709
-
Immunodeficiency and chronic myelogenous leukemia-like syndrome in mice with a targeted mutation of the ICSBP gene
-
Holtschke T, Lohler J, Kanno Y, Fehr T, Giese N, et al. 1996. Immunodeficiency and chronic myelogenous leukemia-like syndrome in mice with a targeted mutation of the ICSBP gene. Cell 87:307-17
-
(1996)
Cell
, vol.87
, pp. 307-317
-
-
Holtschke, T.1
Lohler, J.2
Kanno, Y.3
Fehr, T.4
Giese, N.5
-
130
-
-
0037310617
-
Cutting edge: IFN consensus sequence binding protein/IFN regulatory factor 8 drives the development of type i IFN-producing plasmacytoid dendritic cells
-
Tsujimura H, Tamura T, Ozato K. 2003. Cutting edge: IFN consensus sequence binding protein/IFN regulatory factor 8 drives the development of type I IFN-producing plasmacytoid dendritic cells. J. Immunol. 170:1131-35
-
(2003)
J. Immunol.
, vol.170
, pp. 1131-1135
-
-
Tsujimura, H.1
Tamura, T.2
Ozato, K.3
-
131
-
-
14044270784
-
IFN regulatory factor-4 and -8 govern dendritic cell subset development and their functional diversity
-
Tamura T, Tailor P, Yamaoka K, Kong HJ, Tsujimura H, et al. 2005. IFN regulatory factor-4 and -8 govern dendritic cell subset development and their functional diversity. J. Immunol. 174:2573-81
-
(2005)
J. Immunol.
, vol.174
, pp. 2573-2581
-
-
Tamura, T.1
Tailor, P.2
Yamaoka, K.3
Kong, H.J.4
Tsujimura, H.5
-
133
-
-
17144424686
-
A mutation in the Icsbp1 gene causes susceptibility to infection and a chronic myeloid leukemia-like syndrome in BXH-2 mice
-
Turcotte K, Gauthier S, Tuite A, Mullick A, Malo D, Gros P. 2005. A mutation in the Icsbp1 gene causes susceptibility to infection and a chronic myeloid leukemia-like syndrome in BXH-2 mice. J. Exp. Med. 201:881-90
-
(2005)
J. Exp. Med.
, vol.201
, pp. 881-890
-
-
Turcotte, K.1
Gauthier, S.2
Tuite, A.3
Mullick, A.4
Malo, D.5
Gros, P.6
-
134
-
-
41349119601
-
The BXH2 mutation in IRF8 differentially impairs dendritic cell subset development in the mouse
-
Tailor P, Tamura T, Morse HC 3rd, Ozato K. 2008. The BXH2 mutation in IRF8 differentially impairs dendritic cell subset development in the mouse. Blood 111:1942-45
-
(2008)
Blood
, vol.111
, pp. 1942-1945
-
-
Tailor, P.1
Tamura, T.2
Morse Iii, H.C.3
Ozato, K.4
-
135
-
-
1542373654
-
ICSBP is critically involved in the normal development and trafficking of Langerhans cells and dermal dendritic cells
-
Schiavoni G, Mattei F, Borghi P, Sestili P, Venditti M, et al. 2004. ICSBP is critically involved in the normal development and trafficking of Langerhans cells and dermal dendritic cells. Blood 103:2221-28
-
(2004)
Blood
, vol.103
, pp. 2221-2228
-
-
Schiavoni, G.1
Mattei, F.2
Borghi, P.3
Sestili, P.4
Venditti, M.5
-
136
-
-
33645499663
-
Toward the identification of a tolerogenic signature in IDO-competent dendritic cells
-
Orabona C, Puccetti P, Vacca C, Bicciato S, Luchini A, et al. 2006. Toward the identification of a tolerogenic signature in IDO-competent dendritic cells. Blood 107:2846-54
-
(2006)
Blood
, vol.107
, pp. 2846-2854
-
-
Orabona, C.1
Puccetti, P.2
Vacca, C.3
Bicciato, S.4
Luchini, A.5
-
137
-
-
2942691394
-
Critical roles of interferon regulatory factor 4 inCD11bhighCD8α- dendritic cell development
-
Suzuki S, Honma K, Matsuyama T, Suzuki K, Toriyama K, et al. 2004. Critical roles of interferon regulatory factor 4 inCD11bhighCD8α-dendritic cell development. Proc.Natl. Acad. Sci.USA101:8981-86
-
(2004)
Proc.Natl. Acad. Sci.USA101
, pp. 8981-8986
-
-
Suzuki, S.1
Honma, K.2
Matsuyama, T.3
Suzuki, K.4
Toriyama, K.5
-
138
-
-
41549151507
-
The signal transducer STAT5 inhibits plasmacytoid dendritic cell development by suppressing transcription factor IRF8
-
Esashi E, Wang YH, Perng O, Qin XF, Liu YJ, Watowich SS. 2008. The signal transducer STAT5 inhibits plasmacytoid dendritic cell development by suppressing transcription factor IRF8. Immunity 28:509-20
-
(2008)
Immunity
, vol.28
, pp. 509-520
-
-
Esashi, E.1
Wang, Y.H.2
Perng, O.3
Qin, X.F.4
Liu, Y.J.5
Watowich, S.S.6
-
140
-
-
78650178058
-
Continuous expression of the transcription factor E2-2 maintains the cell fate of mature plasmacytoid dendritic cells
-
Ghosh HS, Cisse B, Bunin A, Lewis KL, Reizis B. 2010. Continuous expression of the transcription factor E2-2 maintains the cell fate of mature plasmacytoid dendritic cells. Immunity 33:905-16
-
(2010)
Immunity
, vol.33
, pp. 905-916
-
-
Ghosh, H.S.1
Cisse, B.2
Bunin, A.3
Lewis, K.L.4
Reizis, B.5
-
141
-
-
52949106528
-
Transcription factor E2-2 is an essential and specific regulator of plasmacytoid dendritic cell development
-
Cisse B, Caton ML, Lehner M, Maeda T, Scheu S, et al. 2008. Transcription factor E2-2 is an essential and specific regulator of plasmacytoid dendritic cell development. Cell 135:37-48
-
(2008)
Cell
, vol.135
, pp. 37-48
-
-
Cisse, B.1
Caton, M.L.2
Lehner, M.3
Maeda, T.4
Scheu, S.5
-
145
-
-
84867884822
-
Compensatory dendritic cell development mediated by BATF-IRF interactions
-
Tussiwand R, LeeWL, Murphy TL, MashayekhiM, Wumesh KC, et al. 2012. Compensatory dendritic cell development mediated by BATF-IRF interactions. Nature 490:502-7
-
(2012)
Nature
, vol.490
, pp. 502-507
-
-
Tussiwand, R.1
Lee, W.L.2
Murphy, T.L.3
Mashayekhi, M.4
Wumesh, K.C.5
-
146
-
-
84866370825
-
Zinc finger transcription factor zDC is a negative regulator required to prevent activation of classical dendritic cells in the steady state
-
Meredith MM, Liu K, Kamphorst AO, Idoyaga J, Yamane A, et al. 2012. Zinc finger transcription factor zDC is a negative regulator required to prevent activation of classical dendritic cells in the steady state. J. Exp. Med. 209:1583-93
-
(2012)
J. Exp. Med.
, vol.209
, pp. 1583-1593
-
-
Meredith, M.M.1
Liu, K.2
Kamphorst, A.O.3
Idoyaga, J.4
Yamane, A.5
-
147
-
-
0347480225
-
STAT3 is required for Flt3L-dependent dendritic cell differentiation
-
Laouar Y, Welte T, Fu XY, Flavell RA. 2003. STAT3 is required for Flt3L-dependent dendritic cell differentiation. Immunity 19:903-12
-
(2003)
Immunity
, vol.19
, pp. 903-912
-
-
Laouar, Y.1
Welte, T.2
Fu, X.Y.3
Flavell, R.A.4
-
148
-
-
0036534871
-
The development of murine plasmacytoid dendritic cell precursors is differentially regulated by FLT3-ligand and granulocyte/macrophage colony-stimulating factor
-
GillietM, Boonstra A, Paturel C, Antonenko S, Xu XL, et al. 2002. The development of murine plasmacytoid dendritic cell precursors is differentially regulated by FLT3-ligand and granulocyte/macrophage colony-stimulating factor. J. Exp. Med. 195:953-58
-
(2002)
J. Exp. Med.
, vol.195
, pp. 953-958
-
-
Gillietm Boonstra, A.1
Paturel, C.2
Antonenko, S.3
Xu, X.L.4
-
149
-
-
79959564172
-
Tight control of STAT5 activity determines human CD34-derived interstitial dendritic cell and Langerhans cell development
-
van de Laar L, van den Bosch A, Wierenga AT, Janssen HL, Coffer PJ, Woltman AM. 2011. Tight control of STAT5 activity determines human CD34-derived interstitial dendritic cell and Langerhans cell development. J. Immunol. 186:7016-24
-
(2011)
J. Immunol.
, vol.186
, pp. 7016-7024
-
-
Van De Laar, L.1
Van Den Bosch, A.2
Wierenga, A.T.3
Janssen, H.L.4
Coffer, P.J.5
Woltman, A.M.6
-
150
-
-
0141678952
-
TRAF6 is a critical factor for dendritic cell maturation and development
-
Kobayashi T, Walsh PT, Walsh MC, Speirs KM, Chiffoleau E, et al. 2003. TRAF6 is a critical factor for dendritic cell maturation and development. Immunity 19:353-63
-
(2003)
Immunity
, vol.19
, pp. 353-363
-
-
Kobayashi, T.1
Walsh, P.T.2
Walsh, M.C.3
Speirs, K.M.4
Chiffoleau, E.5
-
151
-
-
0030703546
-
Cell-autonomous defects in dendritic cell populations of Ikaros mutant mice point to a developmental relationship with the lymphoid lineage
-
WuL, Nichogiannopoulou A, ShortmanK, Georgopoulos K. 1997. Cell-autonomous defects in dendritic cell populations of Ikaros mutant mice point to a developmental relationship with the lymphoid lineage. Immunity 7:483-92
-
(1997)
Immunity
, vol.7
, pp. 483-492
-
-
Wu, L.1
Nichogiannopoulou, A.2
Shortman, K.3
Georgopoulos, K.4
-
152
-
-
34447275920
-
Notch-RBP-J signaling controls the homeostasis of CD8+dendritic cells in the spleen
-
Caton ML, Smith-Raska MR, Reizis B. 2007. Notch-RBP-J signaling controls the homeostasis of CD8+dendritic cells in the spleen. J. Exp. Med. 204:1653-64
-
(2007)
J. Exp. Med.
, vol.204
, pp. 1653-1664
-
-
Caton, M.L.1
Smith-Raska, M.R.2
Reizis, B.3
-
153
-
-
0034651965
-
Transcription factor PU.1 is necessary for development of thymic and myeloid progenitor-derived dendritic cells
-
Anderson KL, PerkinH, Surh CD, Venturini S, Maki RA, Torbett BE. 2000. Transcription factor PU.1 is necessary for development of thymic and myeloid progenitor-derived dendritic cells. J. Immunol. 164:1855-61
-
(2000)
J. Immunol.
, vol.164
, pp. 1855-1861
-
-
Anderson, K.L.1
Perkinh Surh, C.D.2
Venturini Smaki, R.A.3
Torbett, B.E.4
-
154
-
-
0034142238
-
PU.1 is required for myeloid-derived but not lymphoid-derived dendritic cells
-
Guerriero A, Langmuir PB, Spain LM, Scott EW. 2000. PU.1 is required for myeloid-derived but not lymphoid-derived dendritic cells. Blood 95:879-85
-
(2000)
Blood
, vol.95
, pp. 879-885
-
-
Guerriero, A.1
Langmuir, P.B.2
Spain, L.M.3
Scott, E.W.4
-
155
-
-
77953282048
-
The transcription factor PU.1 controls dendritic cell development and Flt3 cytokine receptor expression in a dose-dependent manner
-
Carotta S, Dakic A, D'Amico A, Pang SHM, Greig KT, et al. 2010. The transcription factor PU.1 controls dendritic cell development and Flt3 cytokine receptor expression in a dose-dependent manner. Immunity 32:628-41
-
(2010)
Immunity
, vol.32
, pp. 628-641
-
-
Carotta, S.1
Dakic, A.2
D'Amico, A.3
Pang, S.H.M.4
Greig, K.T.5
-
156
-
-
33751526996
-
Identification of a radio-resistant and cycling dermal dendritic cell population in mice and men
-
Bogunovic M, Ginhoux F, Wagers A, Loubeau M, Isola LM, et al. 2006. Identification of a radio-resistant and cycling dermal dendritic cell population in mice and men. J. Exp. Med. 203:2627-38
-
(2006)
J. Exp. Med.
, vol.203
, pp. 2627-2638
-
-
Bogunovic, M.1
Ginhoux, F.2
Wagers, A.3
Loubeau, M.4
Isola, L.M.5
-
157
-
-
34249085336
-
Origin of dendritic cells in peripheral lymphoid organs of mice
-
Liu K, Waskow C, Liu X, Yao K, Hoh J, Nussenzweig M. 2007. Origin of dendritic cells in peripheral lymphoid organs of mice. Nat. Immunol. 8:578-83
-
(2007)
Nat. Immunol.
, vol.8
, pp. 578-583
-
-
Liu Kwaskow, C.1
Liu, X.2
Yao, K.3
Hoh, J.4
Nussenzweig, M.5
-
158
-
-
0036721329
-
Developmental kinetics and lifespan of dendritic cells in mouse lymphoid organs
-
Kamath AT, Henri S, Battye F, Tough DF, Shortman K. 2002. Developmental kinetics and lifespan of dendritic cells in mouse lymphoid organs. Blood 100:1734-41
-
(2002)
Blood
, vol.100
, pp. 1734-1741
-
-
Kamath, A.T.1
Henri, S.2
Battye, F.3
Tough, D.F.4
Shortman, K.5
-
159
-
-
0034672034
-
The development, maturation, and turnover rate of mouse spleen dendritic cell populations
-
Kamath AT, Pooley J, O'Keeffe MA, Vremec D, Zhan Y, et al. 2000. The development, maturation, and turnover rate of mouse spleen dendritic cell populations. J. Immunol. 165:6762-70
-
(2000)
J. Immunol.
, vol.165
, pp. 6762-6770
-
-
Kamath, A.T.1
Pooley, J.2
Ma, O.3
Vremec, D.4
Zhan, Y.5
-
165
-
-
76949097340
-
Quantitative proteomics reveals subset-specific viral recognition in dendritic cells
-
Luber CA, Cox J, Lauterbach H, Fancke B, Selbach M, et al. 2010. Quantitative proteomics reveals subset-specific viral recognition in dendritic cells. Immunity 32:279-89
-
(2010)
Immunity
, vol.32
, pp. 279-289
-
-
Luber, C.A.1
Cox, J.2
Lauterbach, H.3
Fancke, B.4
Selbach, M.5
-
166
-
-
77952319515
-
Differential expression of pathogen-recognition molecules between dendritic cell subsets revealed by plasma membrane proteomic analysis
-
Segura E, Kapp E, GuptaN, Wong J, Lim J, et al. 2010. Differential expression of pathogen-recognition molecules between dendritic cell subsets revealed by plasma membrane proteomic analysis. Mol. Immunol. 47:1765-73
-
(2010)
Mol. Immunol.
, vol.47
, pp. 1765-1773
-
-
Segura, E.1
Kapp Eguptanwong, J.2
Lim, J.3
-
167
-
-
77951935483
-
Cutting edge: Priming of CD8 T cell immunity to herpes simplex virus type 1 requires cognate TLR3 expression in vivo
-
Davey GM, Wojtasiak M, Proietto AI, Carbone FR, HeathWR, Bedoui S. 2010. Cutting edge: priming of CD8 T cell immunity to herpes simplex virus type 1 requires cognate TLR3 expression in vivo. J. Immunol. 184:2243-46
-
(2010)
J. Immunol.
, vol.184
, pp. 2243-2246
-
-
Davey Gmwojtasiak, M.1
Proietto, A.I.2
Carbone, F.R.3
Heath, W.R.4
Bedoui, S.5
-
168
-
-
20644433342
-
TLR11 activation of dendritic cells by a protozoan profilin-like protein
-
Yarovinsky F, Zhang D, Andersen JF, Bannenberg GL, Serhan CN, et al. 2005. TLR11 activation of dendritic cells by a protozoan profilin-like protein. Science 308:1626-29
-
(2005)
Science
, vol.308
, pp. 1626-1629
-
-
Yarovinsky, F.1
Zhang, D.2
Andersen, J.F.3
Bannenberg, G.L.4
Serhan, C.N.5
-
169
-
-
0028917593
-
CD36 gene transfer confers capacity for phagocytosis of cells undergoing apoptosis
-
Ren Y, Silverstein RL, Allen J, Savill J. 1995. CD36 gene transfer confers capacity for phagocytosis of cells undergoing apoptosis. J. Exp. Med. 181:1857-62
-
(1995)
J. Exp. Med.
, vol.181
, pp. 1857-1862
-
-
Ren, Y.1
Silverstein, R.L.2
Allen, J.3
Savill, J.4
-
170
-
-
34347389931
-
Production of monoclonal antibodies that recognize the extracellular domain of mouse langerin/CD207
-
Cheong C, Idoyaga J, Do Y, Pack M, Park SH, et al. 2007. Production of monoclonal antibodies that recognize the extracellular domain of mouse langerin/CD207. J. Immunol. Methods 324:48-62
-
(2007)
J. Immunol. Methods
, vol.324
, pp. 48-62
-
-
Cheong, C.1
Idoyaga, J.2
Do, Y.3
Pack, M.4
Park, S.H.5
-
171
-
-
38649092376
-
Expression of langerin/CD207 reveals dendritic cell heterogeneity between inbred mouse strains
-
Flacher V, Douillard P, Ait-Yahia S, Stoitzner P, Clair-Moninot V, et al. 2008. Expression of langerin/CD207 reveals dendritic cell heterogeneity between inbred mouse strains. Immunology 123:339-47
-
(2008)
Immunology
, vol.123
, pp. 339-347
-
-
Flacher, V.1
Douillard, P.2
Ait-Yahia, S.3
Stoitzner, P.4
Clair-Moninot, V.5
-
172
-
-
67249158956
-
Identification of a dendritic cell receptor that couples sensing of necrosis to immunity
-
Sancho D, Joffre OP, Keller AM, Rogers NC, Martinez D, et al. 2009. Identification of a dendritic cell receptor that couples sensing of necrosis to immunity. Nature 458:899-903
-
(2009)
Nature
, vol.458
, pp. 899-903
-
-
Sancho, D.1
Joffre, O.P.2
Keller, A.M.3
Rogers, N.C.4
Martinez, D.5
-
173
-
-
45749112103
-
Tumor therapy in mice via antigen targeting to a novel, DC-restricted C-type lectin
-
Sancho D, Mourao-Sa D, Joffre OP, Schulz O, Rogers NC, et al. 2008. Tumor therapy in mice via antigen targeting to a novel, DC-restricted C-type lectin. J. Clin. Investig. 118:2098-110
-
(2008)
J. Clin. Investig.
, vol.118
, pp. 2098-2110
-
-
Sancho, D.1
Mourao-Sa, D.2
Joffre, O.P.3
Schulz, O.4
Rogers, N.C.5
-
174
-
-
84860240081
-
DNGR-1 is a specific and universal marker of mouse and human Batf3-dependent dendritic cells in lymphoid and nonlymphoid tissues
-
Poulin LF, Reyal Y, Uronen-Hansson H, Schraml B, Sancho D, et al. 2012. DNGR-1 is a specific and universal marker of mouse and human Batf3-dependent dendritic cells in lymphoid and nonlymphoid tissues. Blood 119:6052-62
-
(2012)
Blood
, vol.119
, pp. 6052-6062
-
-
Poulin, L.F.1
Reyal, Y.2
Uronen-Hansson, H.3
Schraml, B.4
Sancho, D.5
-
175
-
-
67650436137
-
Respiratory syncytial virusinduced activation and migration of respiratory dendritic cells and subsequent antigen presentation in the lung-draining lymph node
-
Lukens MV, Kruijsen D, Coenjaerts FE, Kimpen JL, van Bleek GM. 2009. Respiratory syncytial virusinduced activation and migration of respiratory dendritic cells and subsequent antigen presentation in the lung-draining lymph node. J. Virol. 83:7235-43
-
(2009)
J. Virol.
, vol.83
, pp. 7235-7243
-
-
Lukens, M.V.1
Kruijsen, D.2
Coenjaerts, F.E.3
Kimpen, J.L.4
Van Bleek, G.M.5
-
178
-
-
21244468609
-
+ dendritic cells selectively present MHC class I-restricted noncytolytic viral and intracellular bacterial antigens in vivo
-
+ dendritic cells selectively present MHC class I-restricted noncytolytic viral and intracellular bacterial antigens in vivo. J. Immunol. 175:196-200
-
(2005)
J. Immunol.
, vol.175
, pp. 196-200
-
-
Belz, G.T.1
Shortman, K.2
Bevan, M.J.3
Heath, W.R.4
-
179
-
-
2942593821
-
Distinct migrating and nonmigrating dendritic cell populations are involved inMHCclass I-restricted antigen presentation after lung infection with virus
-
Belz GT, Smith CM, Kleinert L, Reading P, Brooks A, et al. 2004. Distinct migrating and nonmigrating dendritic cell populations are involved inMHCclass I-restricted antigen presentation after lung infection with virus. Proc. Natl. Acad. Sci. USA 101:8670-75
-
(2004)
Proc. Natl. Acad. Sci. USA
, vol.101
, pp. 8670-8675
-
-
Belz, G.T.1
Smith, C.M.2
Kleinert, L.3
Reading, P.4
Brooks, A.5
-
181
-
-
0034684659
-
+ but not CD8-dendritic cells cross-prime cytotoxic T cells in vivo
-
+ but not CD8-dendritic cells cross-prime cytotoxic T cells in vivo. J. Exp. Med. 192:1685-96
-
(2000)
J. Exp. Med.
, vol.192
, pp. 1685-1696
-
-
Den Haan, J.M.1
Lehar, S.M.2
Bevan, M.J.3
-
187
-
-
77249160619
-
Intracellular mechanisms of antigen cross presentation in dendritic cells
-
Amigorena S, Savina A. 2010. Intracellular mechanisms of antigen cross presentation in dendritic cells. Curr. Opin. Immunol. 22:109-17
-
(2010)
Curr. Opin. Immunol.
, vol.22
, pp. 109-117
-
-
Amigorena, S.1
Savina, A.2
-
188
-
-
17644370329
-
Cell biology of antigen processing in vitro and in vivo
-
Trombetta ES, Mellman I. 2005. Cell biology of antigen processing in vitro and in vivo. Annu. Rev. Immunol. 23:975-1028
-
(2005)
Annu. Rev. Immunol.
, vol.23
, pp. 975-1028
-
-
Trombetta, E.S.1
Mellman, I.2
-
189
-
-
0036214292
-
Antigen presentation and T cell stimulation by dendritic cells
-
Guermonprez P, Valladeau J, Zitvogel L, Thery C, Amigorena S. 2002. Antigen presentation and T cell stimulation by dendritic cells. Annu. Rev. Immunol. 20:621-67
-
(2002)
Annu. Rev. Immunol.
, vol.20
, pp. 621-667
-
-
Guermonprez, P.1
Valladeau, J.2
Zitvogel, L.3
Thery, C.4
Amigorena, S.5
-
190
-
-
70449732252
-
Dendritic cell subsets in primary and secondary T cell responses at body surfaces
-
HeathWR, Carbone FR. 2009. Dendritic cell subsets in primary and secondary T cell responses at body surfaces. Nat. Immunol. 10:1237-44
-
(2009)
Nat. Immunol.
, vol.10
, pp. 1237-1244
-
-
Heath, W.R.1
Carbone, F.R.2
-
191
-
-
14844340568
-
Differential lysosomal proteolysis in antigen-presenting cells determines antigen fate
-
Delamarre L, Pack M, Chang H, Mellman I, Trombetta ES. 2005. Differential lysosomal proteolysis in antigen-presenting cells determines antigen fate. Science 307:1630-34
-
(2005)
Science
, vol.307
, pp. 1630-1634
-
-
Delamarre, L.1
Pack, M.2
Chang, H.3
Mellman, I.4
Trombetta, E.S.5
-
192
-
-
0037136285
-
Analysis of protease activity in live antigen-presenting cells shows regulation of the phagosomal proteolytic contents during dendritic cell activation
-
Lennon-Dumenil AM, Bakker AH, Maehr R, Fiebiger E, OverkleeftHS, et al. 2002. Analysis of protease activity in live antigen-presenting cells shows regulation of the phagosomal proteolytic contents during dendritic cell activation. J. Exp. Med. 196:529-40
-
(2002)
J. Exp. Med.
, vol.196
, pp. 529-540
-
-
Lennon-Dumenil, A.M.1
Bakker, A.H.2
Maehr, R.3
Eoverkleefths, F.4
-
193
-
-
0028910938
-
A phagosome-to-cytosol pathway for exogenous antigens presented on MHC class i molecules
-
Kovacsovics-Bankowski M, Rock KL. 1995. A phagosome-to-cytosol pathway for exogenous antigens presented on MHC class I molecules. Science 267:243-46
-
(1995)
Science
, vol.267
, pp. 243-246
-
-
Kovacsovics-Bankowski, M.1
Rock, K.L.2
-
196
-
-
38849083398
-
Bridging B cell and T cell recognition of antigen
-
Ploegh HL. 2007. Bridging B cell and T cell recognition of antigen. J. Immunol. 179:7193
-
(2007)
J. Immunol.
, vol.179
, pp. 7193
-
-
Ploegh, H.L.1
-
197
-
-
68649128145
-
A role for lipid bodies in the crosspresentation of phagocytosed antigens by MHC class i in dendritic cells
-
Bougneres L, Helft J, Tiwari S, Vargas P, Chang BH, et al. 2009. A role for lipid bodies in the crosspresentation of phagocytosed antigens by MHC class I in dendritic cells. Immunity 31:232-44
-
(2009)
Immunity
, vol.31
, pp. 232-244
-
-
Bougneres, L.1
Helft, J.2
Tiwari, S.3
Vargas, P.4
Chang, B.H.5
-
200
-
-
0035339882
-
Differential production of IL-12, IFN-α, and IFN-γby mouse dendritic cell subsets
-
Hochrein H, Shortman K, Vremec D, Scott B, Hertzog P, O'Keeffe M. 2001. Differential production of IL-12, IFN-α, and IFN-γby mouse dendritic cell subsets. J. Immunol. 166:5448-55
-
(2001)
J. Immunol.
, vol.166
, pp. 5448-5455
-
-
Hochrein, H.1
Shortman, K.2
Vremec, D.3
Scott, B.4
Hertzog, P.5
O'Keeffe, M.6
-
201
-
-
80051915459
-
+ dendritic cells are the critical source of interleukin-12 that controls acute infection by Toxoplasma gondii tachyzoites
-
+ dendritic cells are the critical source of interleukin-12 that controls acute infection by Toxoplasma gondii tachyzoites. Immunity 35:249-59
-
(2011)
Immunity
, vol.35
, pp. 249-259
-
-
Mashayekhi, M.1
Sandau, M.M.2
Dunay, I.R.3
Frickel, E.M.4
Khan, A.5
-
202
-
-
0035423390
-
IL-15 is expressed by dendritic cells in response to type i IFN, double-stranded RNA, or lipopolysaccharide and promotes dendritic cell activation
-
Mattei F, Schiavoni G, Belardelli F, Tough DF. 2001. IL-15 is expressed by dendritic cells in response to type I IFN, double-stranded RNA, or lipopolysaccharide and promotes dendritic cell activation. J. Immunol. 167:1179-87
-
(2001)
J. Immunol.
, vol.167
, pp. 1179-1187
-
-
Mattei, F.1
Schiavoni, G.2
Belardelli, F.3
Tough, D.F.4
-
203
-
-
0346335808
-
Immune activation: Death, danger and dendritic cells
-
Pulendran B. 2004. Immune activation: death, danger and dendritic cells. Curr. Biol. 14:R30-32
-
(2004)
Curr. Biol.
, vol.14
-
-
Pulendran, B.1
-
205
-
-
80051906942
-
Skin-resident murine dendritic cell subsets promote distinct and opposing antigen-specific T helper cell responses
-
Igyarto BZ, Haley K, Ortner D, Bobr A, Gerami-Nejad M, et al. 2011. Skin-resident murine dendritic cell subsets promote distinct and opposing antigen-specific T helper cell responses. Immunity 35:260-72
-
(2011)
Immunity
, vol.35
, pp. 260-272
-
-
Igyarto, B.Z.1
Haley, K.2
Ortner, D.3
Bobr, A.4
Gerami-Nejad, M.5
-
207
-
-
72949104779
-
Antigen presentation in the thymus for positive selection and central tolerance induction
-
Klein L, Hinterberger M, Wirnsberger G, Kyewski B. 2009. Antigen presentation in the thymus for positive selection and central tolerance induction. Nat. Rev. Immunol. 9:833-44
-
(2009)
Nat. Rev. Immunol.
, vol.9
, pp. 833-844
-
-
Klein, L.1
Hinterberger, M.2
Wirnsberger, G.3
Kyewski, B.4
-
209
-
-
0034614894
-
A discrete subpopulation of dendritic cells transports apoptotic intestinal epithelial cells to T cell areas of mesenteric lymph nodes
-
Huang FP, Platt N, Wykes M, Major JR, Powell TJ, et al. 2000. A discrete subpopulation of dendritic cells transports apoptotic intestinal epithelial cells to T cell areas of mesenteric lymph nodes. J. Exp. Med. 191:435-44
-
(2000)
J. Exp. Med.
, vol.191
, pp. 435-444
-
-
Huang, F.P.1
Platt, N.2
Wykes, M.3
Major, J.R.4
Powell, T.J.5
-
210
-
-
28544431840
-
Innate NKT lymphocytes confer superior adaptive immunity via tumor-capturing dendritic cells
-
Liu K, Idoyaga J, Charalambous A, Fujii S, Bonito A, et al. 2005. Innate NKT lymphocytes confer superior adaptive immunity via tumor-capturing dendritic cells. J. Exp. Med. 202:1507-16
-
(2005)
J. Exp. Med.
, vol.202
, pp. 1507-1516
-
-
Liu, K.1
Idoyaga, J.2
Charalambous, A.3
Fujii, S.4
Bonito, A.5
-
211
-
-
0037152164
-
Immune tolerance after delivery of dying cells to dendritic cells in situ
-
Liu K, Iyoda T, Saternus M, Kimura Y, Inaba K, Steinman RM. 2002. Immune tolerance after delivery of dying cells to dendritic cells in situ. J. Exp. Med. 196:1091-97
-
(2002)
J. Exp. Med.
, vol.196
, pp. 1091-1097
-
-
Liu, K.1
Iyoda, T.2
Saternus, M.3
Kimura, Y.4
Inaba, K.5
Steinman, R.M.6
-
212
-
-
63449108301
-
Constitutive ablation of dendritic cells breaks self-tolerance of CD4 T cells and results in spontaneous fatal autoimmunity
-
Ohnmacht C, Pullner A, King SB, Drexler I, Meier S, et al. 2009. Constitutive ablation of dendritic cells breaks self-tolerance of CD4 T cells and results in spontaneous fatal autoimmunity. J. Exp. Med. 206:549-59
-
(2009)
J. Exp. Med.
, vol.206
, pp. 549-559
-
-
Ohnmacht, C.1
Pullner, A.2
King, S.B.3
Drexler, I.4
Meier, S.5
-
213
-
-
2942541735
-
Cross-presentation, dendritic cell subsets, and the generation of immunity to cellular antigens
-
HeathWR, Belz GT, Behrens GM, Smith CM, Forehan SP, et al. 2004. Cross-presentation, dendritic cell subsets, and the generation of immunity to cellular antigens. Immunol. Rev. 199:9-26
-
(2004)
Immunol. Rev.
, vol.199
, pp. 9-26
-
-
Heath, W.R.1
Belz, G.T.2
Behrens, G.M.3
Smith, C.M.4
Forehan, S.P.5
-
215
-
-
33746027329
-
Migratory dendritic cells transfer antigen to a lymph node-resident dendritic cell population for efficient CTL priming
-
Allan RS, Waithman J, Bedoui S, Jones CM, Villadangos JA, et al. 2006. Migratory dendritic cells transfer antigen to a lymph node-resident dendritic cell population for efficient CTL priming. Immunity 25:153-62
-
(2006)
Immunity
, vol.25
, pp. 153-162
-
-
Allan, R.S.1
Waithman, J.2
Bedoui, S.3
Jones, C.M.4
Villadangos, J.A.5
-
218
-
-
33846490362
-
Diverse and potent chemokine production by lung CD11bhigh dendritic cells in homeostasis and in allergic lung inflammation
-
Beaty SR, Rose CE Jr, Sung SS. 2007. Diverse and potent chemokine production by lung CD11bhigh dendritic cells in homeostasis and in allergic lung inflammation. J. Immunol. 178:1882-95
-
(2007)
J. Immunol.
, vol.178
, pp. 1882-1895
-
-
Beaty, S.R.1
Rose Jr., C.E.2
Sung, S.S.3
-
221
-
-
79955505656
-
Protective T cell immunity in mice following protein-TLR7/8 agonist-conjugate immunization requires aggregation, type i IFN, and multiple DC subsets
-
Kastenmuller K, Wille-Reece U, Lindsay RW, Trager LR, Darrah PA, et al. 2011. Protective T cell immunity in mice following protein-TLR7/8 agonist-conjugate immunization requires aggregation, type I IFN, and multiple DC subsets. J. Clin. Investig. 121:1782-96
-
(2011)
J. Clin. Investig.
, vol.121
, pp. 1782-1796
-
-
Kastenmuller, K.1
Wille-Reece, U.2
Lindsay, R.W.3
Trager, L.R.4
Darrah, P.A.5
-
222
-
-
44049103003
-
Cutting edge: Langerin/CD207 receptor on dendritic cells mediates efficient antigen presentation onMHC i and II products in vivo
-
Idoyaga J, Cheong C, Suda K, Suda N, Kim JY, et al. 2008. Cutting edge: Langerin/CD207 receptor on dendritic cells mediates efficient antigen presentation onMHC I and II products in vivo. J. Immunol. 180:3647-50
-
(2008)
J. Immunol.
, vol.180
, pp. 3647-3650
-
-
Idoyaga, J.1
Cheong, C.2
Suda, K.3
Suda, N.4
Kim, J.Y.5
-
223
-
-
60149101114
-
Dendritic cell antigen presentation drives simultaneous cytokine production by effector and regulatory T cells in inflamed skin
-
McLachlan JB, Catron DM, Moon JJ, Jenkins MK. 2009. Dendritic cell antigen presentation drives simultaneous cytokine production by effector and regulatory T cells in inflamed skin. Immunity 30:277-88
-
(2009)
Immunity
, vol.30
, pp. 277-288
-
-
McLachlan, J.B.1
Catron, D.M.2
Moon, J.J.3
Jenkins, M.K.4
-
224
-
-
0035808785
-
The importation of hematogenous precursors by the thymus is a gated phenomenon in normal adult mice
-
Foss DL, Donskoy E, Goldschneider I. 2001. The importation of hematogenous precursors by the thymus is a gated phenomenon in normal adult mice. J. Exp. Med. 193:365-74
-
(2001)
J. Exp. Med.
, vol.193
, pp. 365-374
-
-
Foss, D.L.1
Donskoy, E.2
Goldschneider, I.3
-
225
-
-
33748866909
-
Clonal deletion of thymocytes by circulating dendritic cells homing to the thymus
-
Bonasio R, Scimone ML, Schaerli P, Grabie N, Lichtman AH, von Andrian UH. 2006. Clonal deletion of thymocytes by circulating dendritic cells homing to the thymus. Nat. Immunol. 7:1092-100
-
(2006)
Nat. Immunol.
, vol.7
, pp. 1092-1100
-
-
Bonasio, R.1
Scimone, M.L.2
Schaerli, P.3
Grabie, N.4
Lichtman, A.H.5
Von Andrian, U.H.6
-
226
-
-
34547757390
-
Small intestine lamina propria dendritic cells promote de novo generation of Foxp3 T reg cells via retinoic acid
-
SunCM, Hall JA, Blank RB, Bouladoux N, Oukka M, et al. 2007. Small intestine lamina propria dendritic cells promote de novo generation of Foxp3 T reg cells via retinoic acid. J. Exp. Med. 204:1775-85
-
(2007)
J. Exp. Med.
, vol.204
, pp. 1775-1785
-
-
Sun, C.M.1
Hall, J.A.2
Blank, R.B.3
Bouladoux, N.4
Oukka, M.5
-
229
-
-
84865277279
-
Migratory, and not lymphoid-resident, dendritic cells maintain peripheral self-tolerance and prevent autoimmunity via induction of iTreg cells
-
Vitali C, Mingozzi F, Broggi A, Barresi S, Zolezzi F, et al. 2012. Migratory, and not lymphoid-resident, dendritic cells maintain peripheral self-tolerance and prevent autoimmunity via induction of iTreg cells. Blood 120:1237-45
-
(2012)
Blood
, vol.120
, pp. 1237-1245
-
-
Vitali, C.1
Mingozzi, F.2
Broggi, A.3
Barresi, S.4
Zolezzi, F.5
-
230
-
-
55249092998
-
Insights into Langerhans cell function from Langerhans cell ablation models
-
KaplanDH, KissenpfennigA, ClausenBE. 2008. Insights into Langerhans cell function from Langerhans cell ablation models. Eur. J. Immunol. 38:2369-76
-
(2008)
Eur. J. Immunol.
, vol.38
, pp. 2369-2376
-
-
Kaplan, D.H.1
Kissenpfennig, A.2
Clausen, B.E.3
-
231
-
-
78649630548
-
In vivo function of Langerhans cells and dermal dendritic cells
-
Kaplan DH. 2010. In vivo function of Langerhans cells and dermal dendritic cells. Trends Immunol. 31:446-51
-
(2010)
Trends Immunol.
, vol.31
, pp. 446-451
-
-
Kaplan, D.H.1
-
232
-
-
28844492624
-
Epidermal Langerhans cell-deficient mice develop enhanced contact hypersensitivity
-
Kaplan DH, Jenison MC, Saeland S, Shlomchik WD, Shlomchik MJ. 2005. Epidermal Langerhans cell-deficient mice develop enhanced contact hypersensitivity. Immunity 23:611-20
-
(2005)
Immunity
, vol.23
, pp. 611-620
-
-
Kaplan, D.H.1
Jenison, M.C.2
Saeland, S.3
Shlomchik, W.D.4
Shlomchik, M.J.5
-
233
-
-
78049488909
-
Acute ablation of Langerhans cells enhances skin immune responses
-
Bobr A, Olvera-Gomez I, Igyarto BZ, Haley KM, Hogquist KA, Kaplan DH. 2010. Acute ablation of Langerhans cells enhances skin immune responses. J. Immunol. 185:4724-28
-
(2010)
J. Immunol.
, vol.185
, pp. 4724-4728
-
-
Bobr, A.1
Olvera-Gomez, I.2
Igyarto, B.Z.3
Haley, K.M.4
Hogquist, K.A.5
Kaplan, D.H.6
-
234
-
-
84861462335
-
Human epidermal Langerhans cells maintain immune homeostasis in skin by activating skin resident regulatory T cells
-
Seneschal J, Clark RA, Gehad A, Baecher-Allan CM, Kupper TS. 2012. Human epidermal Langerhans cells maintain immune homeostasis in skin by activating skin resident regulatory T cells. Immunity 36:873-84
-
(2012)
Immunity
, vol.36
, pp. 873-884
-
-
Seneschal, J.1
Clark, R.A.2
Gehad, A.3
Baecher-Allan, C.M.4
Kupper, T.S.5
-
235
-
-
2442658900
-
Depletion of host Langerhans cells before transplantation of donor alloreactive T cells prevents skin graft-versus-host disease
-
MeradM, Hoffmann P, Ranheim E, Slaymaker S, ManzMG, et al. 2004. Depletion of host Langerhans cells before transplantation of donor alloreactive T cells prevents skin graft-versus-host disease. Nat. Med. 10:510-17
-
(2004)
Nat. Med.
, vol.10
, pp. 510-517
-
-
Merad, M.1
Hoffmann, P.2
Ranheim, E.3
Slaymaker, S.4
Manz, M.G.5
-
236
-
-
77349089236
-
Differentiation and function of mouse monocyte-derived dendritic cells in steady state and inflammation
-
Dominguez PM, Ardavin C. 2010. Differentiation and function of mouse monocyte-derived dendritic cells in steady state and inflammation. Immunol. Rev. 234:90-104
-
(2010)
Immunol. Rev.
, vol.234
, pp. 90-104
-
-
Dominguez, P.M.1
Ardavin, C.2
-
238
-
-
73949097613
-
Different cross-presentation pathways in steady-state and inflammatory dendritic cells
-
Segura E, Albiston AL, Wicks IP, Chai SY, Villadangos JA. 2009. Different cross-presentation pathways in steady-state and inflammatory dendritic cells. Proc. Natl. Acad. Sci. USA 106:20377-81
-
(2009)
Proc. Natl. Acad. Sci. USA
, vol.106
, pp. 20377-20381
-
-
Segura, E.1
Albiston, A.L.2
Wicks, I.P.3
Chai, S.Y.4
Villadangos, J.A.5
-
239
-
-
84864297838
-
Zbtb46 expression distinguishes classical dendritic cells and their committed progenitors from other immune lineages
-
Satpathy AT, Wumesh KC, Albring JC, Edelson BT, Kretzer NM, et al. 2012. Zbtb46 expression distinguishes classical dendritic cells and their committed progenitors from other immune lineages. J. Exp. Med. 209:1135-52
-
(2012)
J. Exp. Med.
, vol.209
, pp. 1135-1152
-
-
Satpathy, A.T.1
Wumesh, K.C.2
Albring, J.C.3
Edelson, B.T.4
Kretzer, N.M.5
-
240
-
-
0037625155
-
TNF/iNOS-producing dendritic cells mediate innate immune defense against bacterial infection
-
Serbina NV, Salazar-Mather TP, Biron CA, Kuziel WA, Pamer EG. 2003. TNF/iNOS-producing dendritic cells mediate innate immune defense against bacterial infection. Immunity 19:59-70
-
(2003)
Immunity
, vol.19
, pp. 59-70
-
-
Serbina, N.V.1
Salazar-Mather, T.P.2
Biron, C.A.3
Kuziel, W.A.4
Pamer, E.G.5
-
241
-
-
0033403066
-
Differentiation of phagocytic monocytes into lymph node dendritic cells in vivo
-
Randolph GJ, Inaba K, Robbiani DF, Steinman RM, Muller WA. 1999. Differentiation of phagocytic monocytes into lymph node dendritic cells in vivo. Immunity 11:753-61
-
(1999)
Immunity
, vol.11
, pp. 753-761
-
-
Randolph, G.J.1
Inaba, K.2
Robbiani, D.F.3
Steinman, R.M.4
Muller, W.A.5
-
242
-
-
0037963473
-
Blood monocytes consist of two principal subsets with distinct migratory properties
-
Geissmann F, Jung S, Littman DR. 2003. Blood monocytes consist of two principal subsets with distinct migratory properties. Immunity 19:71-82
-
(2003)
Immunity
, vol.19
, pp. 71-82
-
-
Geissmann, F.1
Jung, S.2
Littman, D.R.3
-
243
-
-
84859181084
-
Demand-adapted regulation of early hematopoiesis in infection and inflammation
-
Takizawa H, Boettcher S, Manz MG. 2012. Demand-adapted regulation of early hematopoiesis in infection and inflammation. Blood 119:2991-3002
-
(2012)
Blood
, vol.119
, pp. 2991-3002
-
-
Takizawa, H.1
Boettcher, S.2
Manz, M.G.3
-
244
-
-
33744978765
-
Toll-like receptors on hematopoietic progenitor cells stimulate innate immune system replenishment
-
Nagai Y, Garrett KP, Ohta S, Bahrun U, Kouro T, et al. 2006. Toll-like receptors on hematopoietic progenitor cells stimulate innate immune system replenishment. Immunity 24:801-12
-
(2006)
Immunity
, vol.24
, pp. 801-812
-
-
Nagai, Y.1
Garrett, K.P.2
Ohta, S.3
Bahrun, U.4
Kouro, T.5
-
245
-
-
55749087502
-
Lymphoid precursors are directed to produce dendritic cells as a result of TLR9 ligation during herpes infection
-
Welner RS, Pelayo R, Nagai Y, Garrett KP, Wuest TR, et al. 2008. Lymphoid precursors are directed to produce dendritic cells as a result of TLR9 ligation during herpes infection. Blood 112:3753-61
-
(2008)
Blood
, vol.112
, pp. 3753-3761
-
-
Welner, R.S.1
Pelayo, R.2
Nagai, Y.3
Kp, G.4
Wuest, T.R.5
-
246
-
-
35348871316
-
+ DC capable of inducing a Th1-type response
-
+ DC capable of inducing a Th1-type response. Eur. J. Immunol. 37:2834-46
-
(2007)
Eur. J. Immunol.
, vol.37
, pp. 2834-2846
-
-
Sioud, M.1
Floisand, Y.2
-
248
-
-
36248957063
-
Immunosurveillance by hematopoietic progenitor cells trafficking through blood, lymph, and peripheral tissues
-
Massberg S, Schaerli P, Knezevic-Maramica I, Kollnberger M, Tubo N, et al. 2007. Immunosurveillance by hematopoietic progenitor cells trafficking through blood, lymph, and peripheral tissues. Cell 131:994-1008
-
(2007)
Cell
, vol.131
, pp. 994-1008
-
-
Massberg, S.1
Schaerli, P.2
Knezevic-Maramica, I.3
Kollnberger, M.4
Tubo, N.5
-
249
-
-
80855144798
-
Bone marrow dendritic cell progenitors sense pathogens via Toll-like receptors and subsequently migrate to inflamed lymph nodes
-
Schmid MA, Takizawa H, Baumjohann DR, Saito Y, Manz MG. 2011. Bone marrow dendritic cell progenitors sense pathogens via Toll-like receptors and subsequently migrate to inflamed lymph nodes. Blood 118:4829-40
-
(2011)
Blood
, vol.118
, pp. 4829-4840
-
-
Ma, S.1
Takizawa, H.2
Baumjohann, D.R.3
Saito, Y.4
Manz, M.G.5
-
250
-
-
34147164049
-
Critical roles for CCR2 and MCP-3 in monocyte mobilization from bone marrow and recruitment to inflammatory sites
-
Tsou CL, Peters W, Si Y, Slaymaker S, Aslanian AM, et al. 2007. Critical roles for CCR2 and MCP-3 in monocyte mobilization from bone marrow and recruitment to inflammatory sites. J. Clin. Investig. 117:902-9
-
(2007)
J. Clin. Investig.
, vol.117
, pp. 902-909
-
-
Tsou, C.L.1
Peters, W.2
Si, Y.3
Slaymaker, S.4
Aslanian, A.M.5
-
251
-
-
33645902493
-
Monocyte emigration from bone marrow during bacterial infection requires signals mediated by chemokine receptor CCR2
-
Serbina NV, Pamer EG. 2006. Monocyte emigration from bone marrow during bacterial infection requires signals mediated by chemokine receptor CCR2. Nat. Immunol. 7:311-17
-
(2006)
Nat. Immunol.
, vol.7
, pp. 311-317
-
-
Serbina, N.V.1
Pamer, E.G.2
-
252
-
-
0346849667
-
Sequential MyD88-independent and -dependent activation of innate immune responses to intracellular bacterial infection
-
Serbina NV, KuzielW, Flavell R, Akira S, Rollins B, Pamer EG. 2003. Sequential MyD88-independent and -dependent activation of innate immune responses to intracellular bacterial infection. Immunity 19:891-901
-
(2003)
Immunity
, vol.19
, pp. 891-901
-
-
Serbina, N.V.1
Kuzielw Flavell, R.2
Akira, S.3
Rollins, B.4
Pamer, E.G.5
-
254
-
-
67650869758
-
INOS-producing inflammatory dendritic cells constitute themajor infected cell type during the chronic Leishmania major infection phase of C57BL/6 resistant mice
-
De Trez C, Magez S, Akira S, Ryffel B, Carlier Y, Muraille E. 2009. iNOS-producing inflammatory dendritic cells constitute themajor infected cell type during the chronic Leishmania major infection phase of C57BL/6 resistant mice. PLoS Pathog. 5:e1000494
-
(2009)
PLoS Pathog.
, vol.5
-
-
De Trez, C.1
Magez, S.2
Akira, S.3
Ryffel, B.4
Carlier, Y.5
Muraille, E.6
-
255
-
-
33845898737
-
Steady-state and inflammatory dendritic-cell development
-
Shortman K, Naik SH. 2007. Steady-state and inflammatory dendritic-cell development. Nat. Rev. Immunol. 7:19-30
-
(2007)
Nat. Rev. Immunol.
, vol.7
, pp. 19-30
-
-
Shortman, K.1
Naik, S.H.2
-
256
-
-
0033546053
-
The nature of the principal type 1 interferon-producing cells in human blood
-
Siegal FP, Kadowaki N, Shodell M, Fitzgerald-Bocarsly PA, Shah K, et al. 1999. The nature of the principal type 1 interferon-producing cells in human blood. Science 284:1835-37
-
(1999)
Science
, vol.284
, pp. 1835-1837
-
-
Siegal, F.P.1
Kadowaki, N.2
Shodell, M.3
Fitzgerald-Bocarsly, P.A.4
Shah, K.5
-
257
-
-
0033582629
-
Reciprocal control of T helper cell and dendritic cell differentiation [see comments]
-
Rissoan MC, Soumelis V, Kadowaki N, Grouard G, Briere F, et al. 1999. Reciprocal control of T helper cell and dendritic cell differentiation [see comments]. Science 283:1183-86
-
(1999)
Science
, vol.283
, pp. 1183-1186
-
-
Rissoan, M.C.1
Soumelis, V.2
Kadowaki, N.3
Grouard, G.4
Briere, F.5
-
258
-
-
0027323998
-
Dendritic cells freshly isolated from human blood express CD4 and mature into typical immunostimulatory dendritic cells after culture in monocyte-conditioned medium
-
O'Doherty U, Steinman RM, Peng M, Cameron PU, Gezelter S, et al. 1993. Dendritic cells freshly isolated from human blood express CD4 and mature into typical immunostimulatory dendritic cells after culture in monocyte-conditioned medium. J. Exp. Med. 178:1067-76
-
(1993)
J. Exp. Med.
, vol.178
, pp. 1067-1076
-
-
O'Doherty, U.1
Steinman, R.M.2
Peng, M.3
Cameron, P.U.4
Gezelter, S.5
-
259
-
-
0028048051
-
Human blood contains two subsets of dendritic cells, one immunologically mature and the other immature
-
O'Doherty U, Peng M, Gezelter S, Swiggard WJ, Betjes M, et al. 1994. Human blood contains two subsets of dendritic cells, one immunologically mature and the other immature. Immunology 82:487
-
(1994)
Immunology
, vol.82
, pp. 487
-
-
O'Doherty, U.1
Peng, M.2
Gezelter, S.3
Swiggard, W.J.4
Betjes, M.5
-
260
-
-
0027243181
-
Isolation and characterization of human peripheral blood dendritic cells
-
Thomas R, Davis LS, Lipsky PE. 1993. Isolation and characterization of human peripheral blood dendritic cells. J. Immunol. 150:821-34
-
(1993)
J. Immunol.
, vol.150
, pp. 821-834
-
-
Thomas, R.1
Davis, L.S.2
Lipsky, P.E.3
-
261
-
-
0034547923
-
BDCA-2, BDCA-3, and BDCA-4: Three markers for distinct subsets of dendritic cells in human peripheral blood
-
Dzionek A, Fuchs A, Schmidt P, Cremer S, ZyskM, et al. 2000. BDCA-2, BDCA-3, and BDCA-4: three markers for distinct subsets of dendritic cells in human peripheral blood. J. Immunol. 165:6037-46
-
(2000)
J. Immunol.
, vol.165
, pp. 6037-6046
-
-
Dzionek, A.1
Fuchs, A.2
Schmidt, P.3
Cremer, S.4
Zysk, M.5
-
262
-
-
0037114743
-
Characterization of human blood dendritic cell subsets
-
MacDonald KP, Munster DJ, Clark GJ, Dzionek A, Schmitz J, Hart DN. 2002. Characterization of human blood dendritic cell subsets. Blood 100:4512-20
-
(2002)
Blood
, vol.100
, pp. 4512-4520
-
-
MacDonald, K.P.1
Munster, D.J.2
Clark, G.J.3
Dzionek, A.4
Schmitz, J.5
Hart, D.N.6
-
263
-
-
0033179148
-
+ subset of human blood dendritic cells is a direct precursor of Langerhans cells
-
+ subset of human blood dendritic cells is a direct precursor of Langerhans cells. J. Immunol. 163:1409-19
-
(1999)
J. Immunol.
, vol.163
, pp. 1409-1419
-
-
Ito, T.1
Inaba, M.2
Inaba, K.3
Toki, J.4
Sogo, S.5
-
264
-
-
26844581978
-
Gene family clustering identifies functionally associated subsets of human in vivo blood and tonsillar dendritic cells
-
LindstedtM, Lundberg K, BorrebaeckCA. 2005. Gene family clustering identifies functionally associated subsets of human in vivo blood and tonsillar dendritic cells. J. Immunol. 175:4839-46
-
(2005)
J. Immunol.
, vol.175
, pp. 4839-4846
-
-
Lindstedt, M.1
Lundberg, K.2
Borrebaeck, C.A.3
-
265
-
-
0036754935
-
6-Sulfo LacNAc, a novel carbohydrate modification of PSGL-1, defines an inflammatory type of human dendritic cells
-
Schakel K, Kannagi R, Kniep B, Goto Y, Mitsuoka C, et al. 2002. 6-Sulfo LacNAc, a novel carbohydrate modification of PSGL-1, defines an inflammatory type of human dendritic cells. Immunity 17:289-301
-
(2002)
Immunity
, vol.17
, pp. 289-301
-
-
Schakel, K.1
Kannagi, R.2
Kniep, B.3
Goto, Y.4
Mitsuoka, C.5
-
267
-
-
45749120843
-
Novel insights into the relationships between dendritic cell subsets in human and mouse revealed by genome-wide expression profiling
-
Robbins SH, Walzer T, Dembele D, Thibault C, Defays A, et al. 2008. Novel insights into the relationships between dendritic cell subsets in human and mouse revealed by genome-wide expression profiling. Genome Biol. 9:R17
-
(2008)
Genome Biol.
, vol.9
-
-
Robbins Shwalzer, T.1
Dembele, D.2
Thibault, C.3
Defays, A.4
-
268
-
-
0027432320
-
Characterization of dermal dendritic cells obtained from normal human skin reveals phenotypic and functionally distinctive subsets
-
Nestle FO, Zheng XG, Thompson CB, Turka LA, Nickoloff BJ. 1993. Characterization of dermal dendritic cells obtained from normal human skin reveals phenotypic and functionally distinctive subsets. J. Immunol. 151:6535-45
-
(1993)
J. Immunol.
, vol.151
, pp. 6535-6545
-
-
Nestle, F.O.1
Zheng, X.G.2
Thompson, C.B.3
Turka, L.A.4
Nickoloff, B.J.5
-
269
-
-
0027137486
-
Human and murine dermis contain dendritic cells. Isolation by means of a novel method and phenotypical and functional characterization
-
Lenz A, Heine M, Schuler G, Romani N. 1993. Human and murine dermis contain dendritic cells. Isolation by means of a novel method and phenotypical and functional characterization. J. Clin. Investig. 92:2587-96
-
(1993)
J. Clin. Investig.
, vol.92
, pp. 2587-2596
-
-
Lenz, A.1
Heine, M.2
Schuler, G.3
Romani, N.4
-
271
-
-
63049112195
-
Differential rates of replacement of human dermal dendritic cells and macrophages during hematopoietic stem cell transplantation
-
Haniffa M, Ginhoux F, Wang XN, Bigley V, Abel M, et al. 2009. Differential rates of replacement of human dermal dendritic cells and macrophages during hematopoietic stem cell transplantation. J. Exp. Med. 206:371-85
-
(2009)
J. Exp. Med.
, vol.206
, pp. 371-385
-
-
Haniffa, M.1
Ginhoux, F.2
Wang, X.N.3
Bigley, V.4
Abel, M.5
-
275
-
-
0033392139
-
The monoclonal antibodyDCGM4recognizes Langerin, a protein specific of Langerhans cells, and is rapidly internalized from the cell surface
-
Valladeau J, Duvert-Frances V, Pin JJ, Dezutter-Dambuyant C, Vincent C, et al. 1999. The monoclonal antibodyDCGM4recognizes Langerin, a protein specific of Langerhans cells, and is rapidly internalized from the cell surface. Eur. J. Immunol. 29:2695-704
-
(1999)
Eur. J. Immunol.
, vol.29
, pp. 2695-2704
-
-
Valladeau, J.1
Duvert-Frances, V.2
Pin, J.J.3
Dezutter-Dambuyant, C.4
Vincent, C.5
-
276
-
-
0345260746
-
Reactivity of Langerhans cells with hybridoma antibody
-
Fithian E, Kung P, Goldstein G, Rubenfeld M, Fenoglio C, Edelson R. 1981. Reactivity of Langerhans cells with hybridoma antibody. Proc. Natl. Acad. Sci. USA 78:2541-44
-
(1981)
Proc. Natl. Acad. Sci. USA
, vol.78
, pp. 2541-2544
-
-
Fithian, E.1
Kung, P.2
Goldstein, G.3
Rubenfeld, M.4
Fenoglio, C.5
Edelson, R.6
-
277
-
-
11144353750
-
Langerhans cells utilize CD1a and langerin to efficiently present nonpeptide antigens to T cells
-
Hunger RE, Sieling PA, Ochoa MT, Sugaya M, Burdick AE, et al. 2004. Langerhans cells utilize CD1a and langerin to efficiently present nonpeptide antigens to T cells. J. Clin. Investig. 113:701-8
-
(2004)
J. Clin. Investig.
, vol.113
, pp. 701-708
-
-
Hunger, R.E.1
Sieling, P.A.2
Ochoa, M.T.3
Sugaya, M.4
Burdick, A.E.5
-
279
-
-
0035383796
-
Investigation of human spleen dendritic cell phenotype and distribution reveals evidence of in vivo activation in a subset of organ donors
-
McIlroy D, Troadec C, Grassi F, Samri A, Barrou B, et al. 2001. Investigation of human spleen dendritic cell phenotype and distribution reveals evidence of in vivo activation in a subset of organ donors. Blood 97:3470-77
-
(2001)
Blood
, vol.97
, pp. 3470-3477
-
-
McIlroy, D.1
Troadec, C.2
Grassi, F.3
Samri, A.4
Barrou, B.5
-
281
-
-
84861750928
-
Characterization of resident and migratory dendritic cells in human lymph nodes
-
Segura E, Valladeau-Guilemond J, Donnadieu MH, Sastre-Garau X, Soumelis V, Amigorena S. 2012. Characterization of resident and migratory dendritic cells in human lymph nodes. J. Exp.Med. 209:653-60
-
(2012)
J. Exp.Med.
, vol.209
, pp. 653-660
-
-
Segura, E.1
Valladeau-Guilemond, J.2
Donnadieu, M.H.3
Sastre-Garau, X.4
Soumelis, V.5
Amigorena, S.6
-
282
-
-
0036518287
-
Mouse and human dendritic cell subtypes
-
Shortman K, Liu YJ. 2002. Mouse and human dendritic cell subtypes. Nat. Rev. Immunol. 2002:151-61
-
(2002)
Nat. Rev. Immunol.
, vol.2002
, pp. 151-161
-
-
Shortman, K.1
Liu, Y.J.2
-
285
-
-
54049145131
-
The dendritic cell subtyperestricted C-type lectin Clec9A is a target for vaccine enhancement
-
Caminschi I, Proietto AI, Ahmet F, Kitsoulis S, Shin Teh J, et al. 2008. The dendritic cell subtyperestricted C-type lectin Clec9A is a target for vaccine enhancement. Blood 112:3264-73
-
(2008)
Blood
, vol.112
, pp. 3264-3273
-
-
Caminschi, I.1
Proietto, A.I.2
Ahmet, F.3
Kitsoulis, S.4
Shin Teh, J.5
-
290
-
-
79958053079
-
Human dendritic cell subsets from spleen and blood are similar in phenotype and function but modified by donor health status
-
Mittag D, Proietto AI, Loudovaris T, Mannering SI, Vremec D, et al. 2011. Human dendritic cell subsets from spleen and blood are similar in phenotype and function but modified by donor health status. J. Immunol. 186:6207-17
-
(2011)
J. Immunol.
, vol.186
, pp. 6207-6217
-
-
Mittag, D.1
Proietto, A.I.2
Loudovaris, T.3
Mannering, S.I.4
Vremec, D.5
-
291
-
-
79960219807
-
IRF8 mutations and human dendritic-cell immunodeficiency
-
Hambleton S, Salem S, Bustamante J, Bigley V, Boisson-Dupuis S, et al. 2011. IRF8 mutations and human dendritic-cell immunodeficiency. N. Engl. J. Med. 365:127-38
-
(2011)
N. Engl. J. Med.
, vol.365
, pp. 127-138
-
-
Hambleton, S.1
Salem, S.2
Bustamante, J.3
Bigley, V.4
Boisson-Dupuis, S.5
-
292
-
-
0034234509
-
Langerhans cell deficiency in reticular dysgenesis
-
Emile JF, Geissmann F, Martin OC, Radford-Weiss I, Lepelletier Y, et al. 2000. Langerhans cell deficiency in reticular dysgenesis. Blood 96:58-62
-
(2000)
Blood
, vol.96
, pp. 58-62
-
-
Emile, J.F.1
Geissmann, F.2
Martin, O.C.3
Radford-Weiss, I.4
Lepelletier, Y.5
-
293
-
-
38849141667
-
Differential development of murine dendritic cells by GM-CSF versus Flt3 ligand has implications for inflammation and trafficking
-
Xu Y, Zhan Y, Lew AM, Naik SH, Kershaw MH. 2007. Differential development of murine dendritic cells by GM-CSF versus Flt3 ligand has implications for inflammation and trafficking. J. Immunol. 179:7577-84
-
(2007)
J. Immunol.
, vol.179
, pp. 7577-7584
-
-
Xu, Y.1
Zhan, Y.2
Lew, A.M.3
Naik, S.H.4
Kershaw, M.H.5
-
294
-
-
0034332450
-
Generation of murine dendritic cells from flt3-ligand-supplemented bone marrow cultures
-
Brasel K, De Smedt T, Smith JL, Maliszewski CR. 2000. Generation of murine dendritic cells from flt3-ligand-supplemented bone marrow cultures. Blood 96:3029-39
-
(2000)
Blood
, vol.96
, pp. 3029-3039
-
-
Brasel, K.1
De Smedt, T.2
Smith, J.L.3
Maliszewski, C.R.4
-
295
-
-
0037114134
-
Murine plasmacytoid pre-dendritic cells generated from Flt3 ligand-supplemented bone marrow cultures are immature APCs
-
Brawand P, Fitzpatrick DR, Greenfield BW, Brasel K, Maliszewski CR, De Smedt T. 2002. Murine plasmacytoid pre-dendritic cells generated from Flt3 ligand-supplemented bone marrow cultures are immature APCs. J. Immunol. 169:6711-19
-
(2002)
J. Immunol.
, vol.169
, pp. 6711-6719
-
-
Brawand, P.1
Fitzpatrick, D.R.2
Greenfield, B.W.3
Brasel, K.4
Maliszewski, C.R.5
De Smedt, T.6
-
297
-
-
0026446156
-
GM-CSF and TNF-αcooperate in the generation of dendritic Langerhans cells
-
Caux C, Dezutter-Dambuyant C, Schmitt D, Banchereau J. 1992. GM-CSF and TNF-αcooperate in the generation of dendritic Langerhans cells. Nature 360:258-61
-
(1992)
Nature
, vol.360
, pp. 258-261
-
-
Caux, C.1
Dezutter-Dambuyant, C.2
Schmitt, D.3
Banchereau, J.4
-
299
-
-
1642372843
-
Thrombopoietin cooperates with FLT3-ligand in the generation of plasmacytoid dendritic cell precursors from human hematopoietic progenitors
-
Chen W, Antonenko S, Sederstrom JM, Liang X, Chan AS, et al. 2004. Thrombopoietin cooperates with FLT3-ligand in the generation of plasmacytoid dendritic cell precursors from human hematopoietic progenitors. Blood 103:2547-53
-
(2004)
Blood
, vol.103
, pp. 2547-2553
-
-
Chen, W.1
Antonenko, S.2
Sederstrom, J.M.3
Liang, X.4
Chan, A.S.5
|