-
1
-
-
20144385079
-
Fluid shear stress induces differentiation of flk-1-positive embryonic stem cells into vascular endothelial cells in vitro
-
Yamamoto K, Sokabe T, Watabe T, Miyazono K, Yamashita JK, Obi S, Ohura N, Matsushita A, Kamiya A, Ando J. Fluid shear stress induces differentiation of Flk-1-positive embryonic stem cells into vascular endothelial cells in vitro. Am J Physiol Heart Circ Physiol. 2005;288:H1915-H1924.
-
(2005)
Am J Physiol Heart Circ Physiol
, vol.288
, pp. H1915-H1924
-
-
Yamamoto, K.1
Sokabe, T.2
Watabe, T.3
Miyazono, K.4
Yamashita, J.K.5
Obi, S.6
Ohura, N.7
Matsushita, A.8
Kamiya, A.9
Ando, J.10
-
2
-
-
58649097753
-
Fluid shear stress induces arterial differentiation of endothelial progenitor cells
-
Obi S, Yamamoto K, Shimizu N, Kumagaya S, Masumura T, Sokabe T, Asahara T, Ando J. Fluid shear stress induces arterial differentiation of endothelial progenitor cells. J Appl Physiol (1985). 2009;106:203-211.
-
(2009)
J Appl Physiol (1985)
, vol.106
, pp. 203-211
-
-
Obi, S.1
Yamamoto, K.2
Shimizu, N.3
Kumagaya, S.4
Masumura, T.5
Sokabe, T.6
Asahara, T.7
Ando, J.8
-
3
-
-
79954601102
-
Fluid shear stress primes mouse embryonic stem cells for differentiation in a self-renewing environment via heparan sulfate proteoglycans transduction
-
Toh YC, Voldman J. Fluid shear stress primes mouse embryonic stem cells for differentiation in a self-renewing environment via heparan sulfate proteoglycans transduction. FASEB J. 2011;25:1208-1217.
-
(2011)
FASEB J
, vol.25
, pp. 1208-1217
-
-
Toh, Y.C.1
Voldman, J.2
-
4
-
-
23744442185
-
Differentiation from embryonic stem cells to vascular wall cells under in vitro pulsatile flow loading
-
Huang H, Nakayama Y, Qin K, Yamamoto K, Ando J, Yamashita J, Itoh H, Kanda K, Yaku H, Okamoto Y, Nemoto Y. Differentiation from embryonic stem cells to vascular wall cells under in vitro pulsatile flow loading. J Artif Organs. 2005;8:110-118.
-
(2005)
J Artif Organs
, vol.8
, pp. 110-118
-
-
Huang, H.1
Nakayama, Y.2
Qin, K.3
Yamamoto, K.4
Ando, J.5
Yamashita, J.6
Itoh, H.7
Kanda, K.8
Yaku, H.9
Okamoto, Y.10
Nemoto, Y.11
-
5
-
-
24144432913
-
Shear stress induces endothelial differentiation from a murine embryonic mesenchymal progenitor cell line
-
Wang H, Riha GM, Yan S, Li M, Chai H, Yang H, Yao Q, Chen C. Shear stress induces endothelial differentiation from a murine embryonic mesenchymal progenitor cell line. Arterioscler Thromb Vasc Biol. 2005;25:1817-1823.
-
(2005)
Arterioscler Thromb Vasc Biol
, vol.25
, pp. 1817-1823
-
-
Wang, H.1
Riha, G.M.2
Yan, S.3
Li, M.4
Chai, H.5
Yang, H.6
Yao, Q.7
Chen, C.8
-
6
-
-
35148838914
-
Laminar shear inhibits tubule formation and migration of endothelial cells by an angiopoietin-2-dependent mechanism
-
Tressel SL, Huang RP, Tomsen N, Jo H. Laminar shear inhibits tubule formation and migration of endothelial cells by an angiopoietin-2-dependent mechanism. Arterioscler Thromb Vasc Biol. 2007;27:2150-2156.
-
(2007)
Arterioscler Thromb Vasc Biol
, vol.27
, pp. 2150-2156
-
-
Tressel, S.L.1
Huang, R.P.2
Tomsen, N.3
Jo, H.4
-
7
-
-
67650248913
-
Angiopoietin-2 confers atheroprotection in apoe-/- mice by inhibiting ldl oxidation via nitric oxide
-
Ahmed A, Fujisawa T, Niu XL, Ahmad S, Al-Ani B, Chudasama K, Abbas A, Potluri R, Bhandari V, Findley CM, Lam GKW, Huang J, Hewett PW, Cudmore M, Kontos CD. Angiopoietin-2 confers atheroprotection in apoe-/- mice by inhibiting ldl oxidation via nitric oxide. Circ Res. 2009;104:1333-1336.
-
(2009)
Circ Res
, vol.104
, pp. 1333-1336
-
-
Ahmed, A.1
Fujisawa, T.2
Niu, X.L.3
Ahmad, S.4
Al-Ani, B.5
Chudasama, K.6
Abbas, A.7
Potluri, R.8
Bhandari, V.9
Findley, C.M.10
Lam, G.K.W.11
Huang, J.12
Hewett, P.W.13
Cudmore, M.14
Kontos, C.D.15
-
8
-
-
80052776607
-
Multiple roles of angiopoietins in atherogenesis
-
Ahmed A, Fujisawa T. Multiple roles of angiopoietins in atherogenesis. Curr Opin Lipidol. 2011;22:380-385.
-
(2011)
Curr Opin Lipidol
, vol.22
, pp. 380-385
-
-
Ahmed, A.1
Fujisawa, T.2
-
9
-
-
67650753834
-
The role of the angiopoietins in vascular morphogenesis
-
Thomas M, Augustin HG. The role of the Angiopoietins in vascular morphogenesis. Angiogenesis. 2009;12:125-137.
-
(2009)
Angiogenesis
, vol.12
, pp. 125-137
-
-
Thomas, M.1
Augustin, H.G.2
-
10
-
-
84861820220
-
Angiopoietin-2 differentially regulates angiogenesis through tie2 and integrin signaling
-
Felcht M, Luck R, Schering A, et al. Angiopoietin-2 differentially regulates angiogenesis through TIE2 and integrin signaling. J Clin Invest. 2012;122:1991-2005.
-
(2012)
J Clin Invest
, vol.122
, pp. 1991-2005
-
-
Felcht, M.1
Luck, R.2
Schering, A.3
-
11
-
-
84861375592
-
Angiopoietin-1 mediates inhibition of hypertension- induced release of angiopoietin-2 from endothelial cells
-
Korff T, Ernst E, Nobiling R, Feldner A, Reiss Y, Plate KH, Fiedler U, Augustin HG, Hecker M. Angiopoietin-1 mediates inhibition of hypertension- induced release of angiopoietin-2 from endothelial cells. Cardiovasc Res. 2012;94:510-518.
-
(2012)
Cardiovasc Res
, vol.94
, pp. 510-518
-
-
Korff, T.1
Ernst, E.2
Nobiling, R.3
Feldner, A.4
Reiss, Y.5
Plate, K.H.6
Fiedler, U.7
Augustin, H.G.8
Hecker, M.9
-
12
-
-
0029132731
-
Hemodynamic forces are complex regulators of endothelial gene expression
-
Resnick N, Gimbrone MA Jr. Hemodynamic forces are complex regulators of endothelial gene expression. FASEB J. 1995;9:874-882.
-
(1995)
FASEB J
, vol.9
, pp. 874-882
-
-
Resnick, N.1
Gimbrone, M.A.2
-
13
-
-
0346750816
-
Pulsatile versus oscillatory shear stress regulates nadph oxidase subunit expression: Implication for native ldl oxidation
-
Hwang J, Ing MH, Salazar A, Lassègue B, Griendling K, Navab M, Sevanian A, Hsiai TK. Pulsatile versus oscillatory shear stress regulates NADPH oxidase subunit expression: implication for native LDL oxidation. Circ Res. 2003;93:1225-1232.
-
(2003)
Circ Res
, vol.93
, pp. 1225-1232
-
-
Hwang, J.1
Ing, M.H.2
Salazar, A.3
Lassègue, B.4
Griendling, K.5
Navab, M.6
Sevanian, A.7
Hsiai, T.K.8
-
14
-
-
78649684214
-
Endothelial metallothionein expression and intracellular free zinc levels are regulated by shear stress
-
Conway DE, Lee S, Eskin SG, Shah AK, Jo H, McIntire LV. Endothelial metallothionein expression and intracellular free zinc levels are regulated by shear stress. Am J Physiol Cell Physiol. 2010;299:C1461-C1467.
-
(2010)
Am J Physiol Cell Physiol
, vol.299
, pp. C1461-C1467
-
-
Conway, D.E.1
Lee, S.2
Eskin, S.G.3
Shah, A.K.4
Jo, H.5
McIntire, L.V.6
-
15
-
-
10744220574
-
Oscillatory shear stress stimulates endothelial production of from p47phox-dependent nad (p) h oxidases, leading to monocyte adhesion
-
Hwang J, Saha A, Boo YC, Sorescu GP, McNally JS, Holland SM, Dikalov S, Giddens DP, Griendling KK, Harrison DG. Oscillatory shear stress stimulates endothelial production of from p47phox-dependent nad (p) h oxidases, leading to monocyte adhesion. J Biol Chem. 2003;278:47291-47298.
-
(2003)
J Biol Chem
, vol.278
, pp. 47291-47298
-
-
Hwang, J.1
Saha, A.2
Boo, Y.C.3
Sorescu, G.P.4
McNally, J.S.5
Holland, S.M.6
Dikalov, S.7
Giddens, D.P.8
Griendling, K.K.9
Harrison, D.G.10
-
16
-
-
34250774463
-
Role of endothelial shear stress in the natural history of coronary atherosclerosis and vascular remodeling: Molecular, cellular, and vascular behavior
-
Chatzizisis YS, Coskun AU, Jonas M, Edelman ER, Feldman CL, Stone PH. Role of endothelial shear stress in the natural history of coronary atherosclerosis and vascular remodeling: molecular, cellular, and vascular behavior. J Am Coll Cardiol. 2007;49:2379-2393.
-
(2007)
J Am Coll Cardiol
, vol.49
, pp. 2379-2393
-
-
Chatzizisis, Y.S.1
Coskun, A.U.2
Jonas, M.3
Edelman, E.R.4
Feldman, C.L.5
Stone, P.H.6
-
17
-
-
55449131657
-
Angiopoietin-2 stimulates blood flow recovery after femoral artery occlusion by inducing inflammation and arteriogenesis
-
Tressel SL, Kim H, Ni CW, Chang K, Velasquez-Castano JC, Taylor WR, Yoon YS, Jo H. Angiopoietin-2 stimulates blood flow recovery after femoral artery occlusion by inducing inflammation and arteriogenesis. Arterioscler Thromb Vasc Biol. 2008;28:1989-1995.
-
(2008)
Arterioscler Thromb Vasc Biol
, vol.28
, pp. 1989-1995
-
-
Tressel, S.L.1
Kim, H.2
Ni, C.W.3
Chang, K.4
Velasquez-Castano, J.C.5
Taylor, W.R.6
Yoon, Y.S.7
Jo, H.8
-
18
-
-
8444251784
-
The wnt signaling pathway in development and disease
-
Logan CY, Nusse R. The Wnt signaling pathway in development and disease. Annu Rev Cell Dev Biol. 2004;20:781-810.
-
(2004)
Annu Rev Cell Dev Biol
, vol.20
, pp. 781-810
-
-
Logan, C.Y.1
Nusse, R.2
-
19
-
-
84884182169
-
Atrial fibrillation pacing decreases intravascular shear stress in a new zealand white rabbit model: Implications in endothelial function
-
Jen N, Yu F, Lee J, Wasmund S, Dai X, Chen C, Chawareeyawong P, Yang Y, Li R, Hamdan MH. Atrial fibrillation pacing decreases intravascular shear stress in a new zealand white rabbit model: Implications in endothelial function. Biomech Model Mechanobiol. 2012:1-11.
-
(2012)
Biomech Model Mechanobiol
, pp. 1-11
-
-
Jen, N.1
Yu, F.2
Lee, J.3
Wasmund, S.4
Dai, X.5
Chen, C.6
Chawareeyawong, P.7
Yang, Y.8
Li, R.9
Hamdan, M.H.10
-
20
-
-
41149142238
-
Requirement for wnt and fgf signaling in xenopus tadpole tail regeneration
-
Lin G, Slack JM. Requirement for Wnt and FGF signaling in Xenopus tadpole tail regeneration. Dev Biol. 2008;316:323-335.
-
(2008)
Dev Biol
, vol.316
, pp. 323-335
-
-
Lin, G.1
Slack, J.M.2
-
21
-
-
58249122326
-
Small molecule-mediated disruption of wntdependent signaling in tissue regeneration and cancer
-
Chen B, Dodge ME, Tang W, Lu J, Ma Z, Fan C-W, Wei S, Hao W, Kilgore J, Williams NS. Small molecule-mediated disruption of wntdependent signaling in tissue regeneration and cancer. Nat Chem Biol. 2009;5:100-107.
-
(2009)
Nat Chem Biol
, vol.5
, pp. 100-107
-
-
Chen, B.1
Dodge, M.E.2
Tang, W.3
Lu, J.4
Ma, Z.5
Fan, C.-W.6
Wei, S.7
Hao, W.8
Kilgore, J.9
Williams, N.S.10
-
22
-
-
34250800027
-
Canonical wnt signaling is a positive regulator of mammalian cardiac progenitors
-
Kwon C, Arnold J, Hsiao EC, Taketo MM, Conklin BR, Srivastava D. Canonical Wnt signaling is a positive regulator of mammalian cardiac progenitors. Proc Natl Acad Sci U S A. 2007;104:10894-10899.
-
(2007)
Proc Natl Acad Sci U S A
, vol.104
, pp. 10894-10899
-
-
Kwon, C.1
Arnold, J.2
Hsiao, E.C.3
Taketo, M.M.4
Conklin, B.R.5
Srivastava, D.6
-
23
-
-
0033847008
-
Disruption of hyaluronan synthase-2 abrogates normal cardiac morphogenesis and hyaluronan-mediated transformation of epithelium to mesenchyme
-
Camenisch TD, Spicer AP, Brehm-Gibson T, Biesterfeldt J, Augustine ML, Calabro A Jr, Kubalak S, Klewer SE, McDonald JA. Disruption of hyaluronan synthase-2 abrogates normal cardiac morphogenesis and hyaluronan-mediated transformation of epithelium to mesenchyme. J Clin Invest. 2000;106:349-360.
-
(2000)
J Clin Invest
, vol.106
, pp. 349-360
-
-
Camenisch, T.D.1
Spicer, A.P.2
Brehm-Gibson, T.3
Biesterfeldt, J.4
Augustine, M.L.5
Calabro, A.6
Kubalak, S.7
Klewer, S.E.8
McDonald, J.A.9
-
25
-
-
33644914996
-
Differential inhibition of wnt-3a by sfrp-1 sfrp-2 and sfrp-3
-
Galli LM, Barnes T, Cheng T, Acosta L, Anglade A, Willert K, Nusse R, Burrus LW. Differential inhibition of Wnt-3a by Sfrp-1, Sfrp-2, and Sfrp-3. Dev Dyn. 2006;235:681-690.
-
(2006)
Dev Dyn
, vol.235
, pp. 681-690
-
-
Galli, L.M.1
Barnes, T.2
Cheng, T.3
Acosta, L.4
Anglade, A.5
Willert, K.6
Nusse, R.7
Burrus, L.W.8
-
26
-
-
9144240010
-
DKK1, a negative regulator of wnt signaling, is a target of the beta-catenin/tcf pathway
-
Niida A, Hiroko T, Kasai M, Furukawa Y, Nakamura Y, Suzuki Y, Sugano S, Akiyama T. DKK1, a negative regulator of Wnt signaling, is a target of the beta-catenin/TCF pathway. Oncogene. 2004;23:8520-8526.
-
(2004)
Oncogene
, vol.23
, pp. 8520-8526
-
-
Niida, A.1
Hiroko, T.2
Kasai, M.3
Furukawa, Y.4
Nakamura, Y.5
Suzuki, Y.6
Sugano, S.7
Akiyama, T.8
-
27
-
-
27744520948
-
Ionomycin downregulates beta-catenin/tcf signaling in colon cancer cell line
-
Park CH, Hahm ER, Lee JH, Jung KC, Rhee HS, Yang CH. Ionomycin downregulates beta-catenin/Tcf signaling in colon cancer cell line. Carcinogenesis. 2005;26:1929-1933.
-
(2005)
Carcinogenesis
, vol.26
, pp. 1929-1933
-
-
Park, C.H.1
Hahm, E.R.2
Lee, J.H.3
Jung, K.C.4
Rhee, H.S.5
Yang, C.H.6
-
28
-
-
37349130603
-
Flow-dependent regulation of angiopoietin-2
-
Goettsch W, Gryczka C, Korff T, Ernst E, Goettsch C, Seebach J, Schnittler HJ, Augustin HG, Morawietz H. Flow-dependent regulation of angiopoietin-2. J Cell Physiol. 2008;214:491-503.
-
(2008)
J Cell Physiol
, vol.214
, pp. 491-503
-
-
Goettsch, W.1
Gryczka, C.2
Korff, T.3
Ernst, E.4
Goettsch, C.5
Seebach, J.6
Schnittler, H.J.7
Augustin, H.G.8
Morawietz, H.9
-
29
-
-
33846871222
-
Regulation of foxo-1 and the angiopoietin-2/tie2 system by shear stress
-
Chlench S, Mecha Disassa N, Hohberg M, Hoffmann C, Pohlkamp T, Beyer G, Bongrazio M, Da Silva-Azevedo L, Baum O, Pries AR, Zakrzewicz A. Regulation of Foxo-1 and the angiopoietin-2/Tie2 system by shear stress. FEBS Lett. 2007;581:673-680.
-
(2007)
FEBS Lett
, vol.581
, pp. 673-680
-
-
Chlench, S.1
Mecha Disassa, N.2
Hohberg, M.3
Hoffmann, C.4
Pohlkamp, T.5
Beyer, G.6
Bongrazio, M.7
Da Silva-Azevedo, L.8
Baum, O.9
Pries, A.R.10
Zakrzewicz, A.11
-
30
-
-
0036153335
-
Angiopoietin 2 stimulates migration and tube-like structure formation of murine brain capillary endothelial cells through c-fes and c-fyn
-
Mochizuki Y, Nakamura T, Kanetake H, Kanda S. Angiopoietin 2 stimulates migration and tube-like structure formation of murine brain capillary endothelial cells through c-Fes and c-Fyn. J Cell Sci. 2002;115(Pt 1):175-183.
-
(2002)
J Cell Sci
, vol.115
, pp. 175-183
-
-
Mochizuki, Y.1
Nakamura, T.2
Kanetake, H.3
Kanda, S.4
-
31
-
-
15144358851
-
Angiopoietin-2, a natural antagonist for tie2 that disrupts in vivo angiogenesis
-
Maisonpierre PC, Suri C, Jones PF, Bartunkova S, Wiegand SJ, Radziejewski C, Compton D, McClain J, Aldrich TH, Papadopoulos N, Daly TJ, Davis S, Sato TN, Yancopoulos GD. Angiopoietin-2, a natural antagonist for Tie2 that disrupts in vivo angiogenesis. Science. 1997;277:55-60.
-
(1997)
Science
, vol.277
, pp. 55-60
-
-
Maisonpierre, P.C.1
Suri, C.2
Jones, P.F.3
Bartunkova, S.4
Wiegand, S.J.5
Radziejewski, C.6
Compton, D.7
McClain, J.8
Aldrich, T.H.9
Papadopoulos, N.10
Daly, T.J.11
Davis, S.12
Sato, T.N.13
Yancopoulos, G.D.14
-
32
-
-
84855784993
-
Angiopoeitin-2 modulates survivin expression in oxldl-induced endothelial cell apoptosis
-
Li R, Mittelstein D, Fang K, Beebe T, Quigley K, Berliner J, Hsiai TK. Angiopoeitin-2 modulates Survivin expression in OxLDL-induced endothelial cell apoptosis. Biochem Biophys Res Commun. 2012;417:619-622.
-
(2012)
Biochem Biophys Res Commun
, vol.417
, pp. 619-622
-
-
Li, R.1
Mittelstein, D.2
Fang, K.3
Beebe, T.4
Quigley, K.5
Berliner, J.6
Hsiai, T.K.7
-
33
-
-
0035266253
-
Angiopoietin-2 is related to tumor angiogenesis in gastric carcinoma: Possible in vivo regulation via induction of proteases
-
Etoh T, Inoue H, Tanaka S, Barnard GF, Kitano S, Mori M. Angiopoietin-2 is related to tumor angiogenesis in gastric carcinoma: possible in vivo regulation via induction of proteases. Cancer Res. 2001;61:2145-2153.
-
(2001)
Cancer Res
, vol.61
, pp. 2145-2153
-
-
Etoh, T.1
Inoue, H.2
Tanaka, S.3
Barnard, G.F.4
Kitano, S.5
Mori, M.6
-
34
-
-
27944453623
-
Angiogenic factors are elevated in overweight and obese individuals
-
Silha JV, Krsek M, Sucharda P, Murphy LJ. Angiogenic factors are elevated in overweight and obese individuals. Int J Obes (Lond). 2005;29:1308-1314.
-
(2005)
Int J Obes (Lond)
, vol.29
, pp. 1308-1314
-
-
Silha, J.V.1
Krsek, M.2
Sucharda, P.3
Murphy, L.J.4
-
35
-
-
84881246880
-
Angiopoietin 2 mediates microvascular and hemodynamic alterations in sepsis
-
Ziegler T, Horstkotte J, Schwab C, Pfetsch V, Weinmann K, Dietzel S, Rohwedder I, Hinkel R, Gross L, Lee S. Angiopoietin 2 mediates microvascular and hemodynamic alterations in sepsis. The J Clin Invest. 2013;123:3436.
-
(2013)
The J Clin Invest
, vol.123
, pp. 3436
-
-
Ziegler, T.1
Horstkotte, J.2
Schwab, C.3
Pfetsch, V.4
Weinmann, K.5
Dietzel, S.6
Rohwedder, I.7
Hinkel, R.8
Gross, L.9
Lee, S.10
-
36
-
-
26444496162
-
Cooperative interaction of angiopoietin-like proteins 1 and 2 in zebrafish vascular development
-
Kubota Y, Oike Y, Satoh S, Tabata Y, Niikura Y, Morisada T, Akao M, Urano T, Ito Y, Miyamoto T, Nagai N, Koh GY, Watanabe S, Suda T. Cooperative interaction of Angiopoietin-like proteins 1 and 2 in zebrafish vascular development. Proc Natl Acad Sci U S A. 2005;102:13502-13507.
-
(2005)
Proc Natl Acad Sci U S A
, vol.102
, pp. 13502-13507
-
-
Kubota, Y.1
Oike, Y.2
Satoh, S.3
Tabata, Y.4
Niikura, Y.5
Morisada, T.6
Akao, M.7
Urano, T.8
Ito, Y.9
Miyamoto, T.10
Nagai, N.11
Koh, G.Y.12
Watanabe, S.13
Suda, T.14
-
37
-
-
0035865186
-
The vascular anatomy of the developing zebrafish: An atlas of embryonic and early larval development
-
Isogai S, Horiguchi M, Weinstein BM. The vascular anatomy of the developing zebrafish: an atlas of embryonic and early larval development. Dev Biol. 2001;230:278-301.
-
(2001)
Dev Biol
, vol.230
, pp. 278-301
-
-
Isogai, S.1
Horiguchi, M.2
Weinstein, B.M.3
-
38
-
-
70449816070
-
Circulation status of subintestinal vessels is a sensitive parameter for monitoring suboptimal systemic circulation in experimental zebrafish embryos
-
Zheng PP, Severijnen LA, Willemsen R, Kros JM. Circulation status of subintestinal vessels is a sensitive parameter for monitoring suboptimal systemic circulation in experimental zebrafish embryos. Cell Cycle. 2009;8:3782-3783.
-
(2009)
Cell Cycle
, vol.8
, pp. 3782-3783
-
-
Zheng, P.P.1
Severijnen, L.A.2
Willemsen, R.3
Kros, J.M.4
|