Homing and adhesion patterns determine the cellular composition of the bone marrow plasma cell niche

Journal of Immunology

Volumn 188, Issue 3, 2012, Pages 1283-1291

  Belnoue, Elodie ^a   Tougne, Chantal ^a   Rochat, Anne Françoise ^a   Lambert, Paul Henri ^a   Pinschewer, Daniel D ^a   Siegrist, Claire Anne ^a  

^a UNIVERSITY OF GENEVA   (Switzerland)

Author keywords

[No Author keywords available]

Indexed keywords

APRIL PROTEIN; B LYMPHOCYTE INDUCED MATURATION PROTEIN 1; CHEMOKINE RECEPTOR CXCR4; INTERLEUKIN 6; LYMPHOCYTE FUNCTION ASSOCIATED ANTIGEN 1; MACROPHAGE MIGRATION INHIBITION FACTOR; STROMAL CELL DERIVED FACTOR 1; VERY LATE ACTIVATION ANTIGEN 4;

ADOPTIVE TRANSFER; ANIMAL CELL; ANIMAL EXPERIMENT; ANIMAL MODEL; ARTICLE; CELL ADHESION; CELL COMPOSITION; CELL HOMING; CELL LINEAGE; CELL SURVIVAL; CELL TRANSFER; CELLULAR DISTRIBUTION; CONTROLLED STUDY; EOSINOPHIL; MEGAKARYOCYTE; MOLECULAR DOCKING; MONOCYTE; MOUSE; NONHUMAN; PLASMA CELL; PRIORITY JOURNAL; PROTEIN DETERMINATION; PROTEIN EXPRESSION; PROTEIN FUNCTION; PROTEIN LOCALIZATION; STEM CELL NICHE;

ADOPTIVE TRANSFER; ANIMALS; BONE MARROW CELLS; CELL ADHESION; CELL COMMUNICATION; CELL MOVEMENT; CELL SURVIVAL; HEMATOPOIETIC STEM CELLS; INTEGRIN ALPHA4BETA1; LYMPHOCYTE FUNCTION-ASSOCIATED ANTIGEN-1; MICE; PLASMA CELLS; RECEPTORS, CXCR4; STEM CELL NICHE;

EID: 84856569030     PISSN: 00221767     EISSN: 15506606     Source Type: Journal    
DOI: 10.4049/jimmunol.1103169     Document Type: Article

References (40)

1. Kallies, A., J. Hasbold, D. M. Tarlinton, W. Dietrich, L. M. Corcoran, P. D. Hodgkin, and S. L. Nutt. 2004. Plasma cell ontogeny defined by quantitative changes in blimp-1 expression. J. Exp. Med. 200: 967-977. (Pubitemid 39431122)
2. Sze, D. M., K. M. Toellner, C. García de Vinuesa, D. R. Taylor, and I. C. MacLennan. 2000. Intrinsic constraint on plasmablast growth and extrinsic limits of plasma cell survival. J. Exp. Med. 192: 813-821.
3. Cassese, G., S. Arce, A. E. Hauser, K. Lehnert, B. Moewes, M. Mostarac, G. Muehlinghaus, M. Szyska, A. Radbruch, and R. A. Manz. 2003. Plasma cell survival is mediated by synergistic effects of cytokines and adhesion-dependent signals. J. Immunol. 171: 1684-1690. (Pubitemid 36966450)
4. Yoshida, T., H. Mei, T. Dörner, F. Hiepe, A. Radbruch, S. Fillatreau, and B. F. Hoyer. 2010. Memory B and memory plasma cells. Immunol. Rev. 237: 117-139.
5. Tokoyoda, K., A. E. Hauser, T. Nakayama, and A. Radbruch. 2010. Organization of immunological memory by bone marrow stroma. Nat. Rev. Immunol. 10: 193-200.
6. Fairfax, K. A., A. Kallies, S. L. Nutt, and D. M. Tarlinton. 2008. Plasma cell development: from B-cell subsets to long-term survival niches. Semin. Immunol. 20: 49-58.
7. Tokoyoda, K., T. Egawa, T. Sugiyama, B. I. Choi, and T. Nagasawa. 2004. Cellular niches controlling B lymphocyte behavior within bone marrow during development. Immunity 20: 707-718. (Pubitemid 38757441)
8. Minges Wols, H. A., G. H. Underhill, G. S. Kansas, and P. L. Witte. 2002. The role of bone marrow-derived stromal cells in the maintenance of plasma cell longevity. J. Immunol. 169: 4213-4221. (Pubitemid 35178192)
9. Moser, K., K. Tokoyoda, A. Radbruch, I. MacLennan, and R. A. Manz. 2006. Stromal niches, plasma cell differentiation and survival. Curr. Opin. Immunol. 18: 265-270.
10. Geffroy-Luseau, A., G. Jégo, R. Bataille, L. Campion, and C. Pellat-Deceunynck. 2008. Osteoclasts support the survival of human plasma cells in vitro. Int. Immunol. 20: 775-782. (Pubitemid 351791521)
11. Belnoue, E., M. Pihlgren, T. L. McGaha, C. Tougne, A. F. Rochat, C. Bossen, P. Schneider, B. Huard, P. H. Lambert, and C. A. Siegrist. 2008. APRIL is critical for plasmablast survival in the bone marrow and poorly expressed by early-life bone marrow stromal cells. Blood 111: 2755-2764.
12. Chu, V. T., A. Fröhlich, G. Steinhauser, T. Scheel, T. Roch, S. Fillatreau, J. J. Lee, M. Löhning, and C. Berek. 2011. Eosinophils are required for the maintenance of plasma cells in the bone marrow. Nat. Immunol. 12: 151-159.
13. Winter, O., K. Moser, E. Mohr, D. Zotos, H. Kaminski, M. Szyska, K. Roth, D. M. Wong, C. Dame, D. M. Tarlinton, et al. 2010. Megakaryocytes constitute a functional component of a plasma cell niche in the bone marrow. Blood 116: 1867-1875.
14. Rodriguez Gomez, M., Y. Talke, N. Goebel, F. Hermann, B. Reich, and M. Mack. 2010. Basophils support the survival of plasma cells in mice. J. Immunol. 185: 7180-7185.
15. Nagasawa, T. 2006. Microenvironmental niches in the bone marrow required for B-cell development. Nat. Rev. Immunol. 6: 107-116. (Pubitemid 43361586)
16. González-García, I., E. Ocaña, G. Jiménez-Gómez, A. Campos-Caro, and J. A. Brieva. 2006. Immunization-induced perturbation of human blood plasma cell pool: progressive maturation, IL-6 responsiveness, and high PRDI-BF1/BLIMP1 expression are critical distinctions between antigen-specific and nonspecific plasma cells. J. Immunol. 176: 4042-4050. (Pubitemid 44264382)
17. Minges Wols, H. A., J. A. Ippolito, Z. Yu, J. L. Palmer, F. A. White, P. T. Le, and P. L. Witte. 2007. The effects of microenvironment and internal programming on plasma cell survival. Int. Immunol. 19: 837-846. (Pubitemid 47241892)
18. Sapoznikov, A., Y. Pewzner-Jung, V. Kalchenko, R. Krauthgamer, I. Shachar, and S. Jung. 2008. Perivascular clusters of dendritic cells provide critical survival signals to B cells in bone marrow niches. Nat. Immunol. 9: 388-395. (Pubitemid 351405108)
19. Chappell, C. P., and E. A. Clark. 2008. Survival niches: B cells get MIFed as well as BAFFled by dendritic cells. Immunol. Cell Biol. 86: 487-488.
20. Avery, D. T., S. L. Kalled, J. I. Ellyard, C. Ambrose, S. A. Bixler, M. Thien, R. Brink, F. Mackay, P. D. Hodgkin, and S. G. Tangye. 2003. BAFF selectively enhances the survival of plasmablasts generated from human memory B cells. J. Clin. Invest. 112: 286-297. (Pubitemid 38056364)
21. Ingold, K., A. Zumsteg, A. Tardivel, B. Huard, Q. G. Steiner, T. G. Cachero, F. Qiang, L. Gorelik, S. L. Kalled, H. Acha-Orbea, et al. 2005. Identification of proteoglycans as the APRIL-specific binding partners. J. Exp. Med. 201: 1375-1383. (Pubitemid 40664082)
22. Benson, M. J., S. R. Dillon, E. Castigli, R. S. Geha, S. Xu, K. P. Lam, and R. J. Noelle. 2008. Cutting edge: the dependence of plasma cells and independence of memory B cells on BAFF and APRIL. J. Immunol. 180: 3655-3659.
23. Pihlgren, M., C. Tougne, N. Schallert, P. Bozzotti, P. H. Lambert, and C. A. Siegrist. 2003. CpG-motifs enhance initial and sustained primary tetanus-specific antibody secreting cell responses in spleen and bone marrow, but are more effective in adult than in neonatal mice. Vaccine 21: 2492-2499. (Pubitemid 36561341)
24. Pihlgren, M., M. Friedli, C. Tougne, A. F. Rochat, P. H. Lambert, and C. A. Siegrist. 2006. Reduced ability of neonatal and early-life bone marrow stromal cells to support plasmablast survival. J. Immunol. 176: 165-172. (Pubitemid 43023260)
25. Rutishauser, R. L., G. A. Martins, S. Kalachikov, A. Chandele, I. A. Parish, E. Meffre, J. Jacob, K. Calame, and S. M. Kaech. 2009. Transcriptional repressor Blimp-1 promotes CD8(+) T cell terminal differentiation and represses the acquisition of central memory T cell properties. Immunity 31: 296-308.
26. Kallies, A., A. Xin, G. T. Belz, and S. L. Nutt. 2009. Blimp-1 transcription factor is required for the differentiation of effector CD8(+) T cells and memory responses. Immunity 31: 283-295.
27. DiLillo, D. J., Y. Hamaguchi, Y. Ueda, K. Yang, J. Uchida, K. M. Haas, G. Kelsoe, and T. F. Tedder. 2008. Maintenance of long-lived plasma cells and serological memory despite mature and memory B cell depletion during CD20 immunotherapy in mice. J. Immunol. 180: 361-371.
28. Chevrier, S., C. Genton, A. Kallies, A. Karnowski, L. A. Otten, B. Malissen, M. Malissen, M. Botto, L. M. Corcoran, S. L. Nutt, and H. Acha-Orbea. 2009. CD93 is required for maintenance of antibody secretion and persistence of plasma cells in the bone marrow niche. Proc. Natl. Acad. Sci. USA 106: 3895-3900.
29. Rozanski, C. H., R. Arens, L. M. Carlson, J. Nair, L. H. Boise, A. A. Chanan-Khan, S. P. Schoenberger, and K. P. Lee. 2011. Sustained antibody responses depend on CD28 function in bone marrow-resident plasma cells. J. Exp. Med. 208: 1435-1446.
30. Christopher, M. J., F. Liu, M. J. Hilton, F. Long, and D. C. Link. 2009. Suppression of CXCL12 production by bone marrow osteoblasts is a common and critical pathway for cytokine-induced mobilization. Blood 114: 1331-1339.
31. Chow, A., D. Lucas, A. Hidalgo, S. Méndez-Ferrer, D. Hashimoto, C. Scheiermann, M. Battista, M. Leboeuf, C. Prophete, N. van Rooijen, et al. 2011. Bone marrow CD169+ macrophages promote the retention of hematopoietic stem and progenitor cells in the mesenchymal stem cell niche. J. Exp. Med. 208: 261-271.
32. Méndez-Ferrer, S., T. V. Michurina, F. Ferraro, A. R. Mazloom, B. D. Macarthur, S. A. Lira, D. T. Scadden, A. Ma'ayan, G. N. Enikolopov, and P. S. Frenette. 2010. Mesenchymal and haematopoietic stem cells form a unique bone marrow niche. Nature 466: 829-834.
33. Omatsu, Y., T. Sugiyama, H. Kohara, G. Kondoh, N. Fujii, K. Kohno, and T. Nagasawa. 2010. The essential functions of adipo-osteogenic progenitors as the hematopoietic stem and progenitor cell niche. Immunity 33: 387-399.
34. Nagasawa, T., Y. Omatsu, and T. Sugiyama. 2011. Control of hematopoietic stem cells by the bone marrow stromal niche: the role of reticular cells. Trends Immunol. 32: 315-320.
35. Chu, V. T., A. Beller, T. T. Nguyen, G. Steinhauser, and C. Berek. 2011. The long-term survival of plasma cells. Scand. J. Immunol. 73: 508-511.
36. Wang, J. F., Z. Y. Liu, and J. E. Groopman. 1998. The alpha-chemokine receptor CXCR4 is expressed on the megakaryocytic lineage from progenitor to platelets and modulates migration and adhesion. Blood 92: 756-764.
37. Banu, N., J. F. Wang, B. Deng, J. E. Groopman, and H. Avraham. 1995. Modulation of megakaryocytopoiesis by thrombopoietin: the c-Mpl ligand. Blood 86: 1331-1338.
38. Avecilla, S. T., K. Hattori, B. Heissig, R. Tejada, F. Liao, K. Shido, D. K. Jin, S. Dias, F. Zhang, T. E. Hartman, et al. 2004. Chemokine-mediated interaction of hematopoietic progenitors with the bone marrow vascular niche is required for thrombopoiesis. Nat. Med. 10: 64-71. (Pubitemid 38524700)
39. Burnett, S. H., E. J. Kershen, J. Zhang, L. Zeng, S. C. Straley, A. M. Kaplan, and D. A. Cohen. 2004. Conditional macrophage ablation in transgenic mice expressing a Fas-based suicide gene. J. Leukoc. Biol. 75: 612-623. (Pubitemid 38405652)
40. Winkler, I. G., N. A. Sims, A. R. Pettit, V. Barbier, B. Nowlan, F. Helwani, I. J. Poulton, N. van Rooijen, K. A. Alexander, L. J. Raggatt, and J. P. Lévesque. 2010. Bone marrow macrophages maintain hematopoietic stem cell (HSC) niches and their depletion mobilizes HSCs. Blood 116: 4815-4828.