CD1 molecule expression on human monocytes induced by granulocyte- macrophage colony-stimulating factor

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CD1 molecule expression on human monocytes induced by granulocyte- macrophage colony-stimulating factor

W Kasinrerk, T Baumruker, O Majdic, W Knapp and H Stockinger
Institute of Immunology-Vienna International Research Cooperation Center, University of Vienna, Austria.

In this paper we demonstrate that granulocyte-macrophage CSF (GM-CSF) specifically induces the expression of CD1 molecules, CD1a, CD1b and CD1c, upon human monocytes. CD1 molecules appeared upon monocytes on day 1 of stimulation with rGM-CSF, and expression was up-regulated until day 3. Monocytes cultured in the presence of LPS, FMLP, PMA, recombinant granulocyte-CSF, rIFN-gamma, rTNF-alpha, rIL-1 alpha, rIL-1 beta, and rIL-6 remained negative. The induction of CD1 molecules by rGM-CSF was restricted to monocytes, since no such effect was observed upon peripheral blood granulocytes, PBL, and the myeloid cell lines Monomac1, Monomac6, MV4/11, HL60, U937, THP1, KG1, and KG1A. CD1a mRNA was detectable in rGM-CSF-induced monocytes but not in those freshly isolated. SDS-PAGE and immunoblotting analyses of CD1a mAb VIT6 immunoprecipitate from lysate of rGM-CSF-activated monocytes revealed an appropriate CD1a polypeptide band of 49 kDa associated with beta 2- microglobulin. Expression of CD1 molecules on monocytes complements the distribution of these structures on accessory cells, and their specific induction by GM-CSF strengthens the suggestion that CD1 is a family of crucial structures required for interaction between accessory cells and T cells.

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				A. Giuliani, S. P. Prete, G. Graziani, A. Aquino, A. Balduzzi, M. Sugita, M. B. Brenner, E. Iona, L. Fattorini, G. Orefici, et al. Influence of Mycobacterium bovis Bacillus Calmette Guerin on In Vitro Induction of CD1 Molecules in Human Adherent Mononuclear Cells Infect. Immun., December 1, 2001; 69(12): 7461 - 7470. [Abstract] [Full Text] [PDF]

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				B. Wang, T. Chun, I. C. Rulifson, M. Exley, S. P. Balk, and C.-R. Wang Human CD1d Functions as a Transplantation Antigen and a Restriction Element in Mice J. Immunol., March 15, 2001; 166(6): 3829 - 3836. [Abstract] [Full Text] [PDF]

				M. Ulanova, A. Tarkowski, M. Hahn-Zoric, and L. A. Hanson The Common Vaccine Adjuvant Aluminum Hydroxide Up-Regulates Accessory Properties of Human Monocytes via an Interleukin-4-Dependent Mechanism Infect. Immun., February 1, 2001; 69(2): 1151 - 1159. [Abstract] [Full Text] [PDF]

				Y. Gazitt Immunologic Profiles of Effector Cells and Peripheral Blood Stem Cells Mobilized with Different Hematopoietic Growth Factors Stem Cells, November 1, 2000; 18(6): 390 - 398. [Abstract] [Full Text]

				P. A. Sieling, S. A. Porcelli, B. T. Duong, F. Spada, B. R. Bloom, B. Diamond, and B. H. Hahn Human Double-Negative T Cells in Systemic Lupus Erythematosus Provide Help for IgG and Are Restricted by CD1c J. Immunol., November 1, 2000; 165(9): 5338 - 5344. [Abstract] [Full Text] [PDF]

				N. Fournier, L. Chalus, I. Durand, E. Garcia, J.-J. Pin, T. Churakova, S. Patel, C. Zlot, D. Gorman, S. Zurawski, et al. FDF03, a Novel Inhibitory Receptor of the Immunoglobulin Superfamily, Is Expressed by Human Dendritic and Myeloid Cells J. Immunol., August 1, 2000; 165(3): 1197 - 1209. [Abstract] [Full Text] [PDF]

				A. Cauli, C. Pitzalis, G. Yanni, M. Awad, and G. S. Panayi CD1 expression in psoriatic and rheumatoid arthritis Rheumatology, June 1, 2000; 39(6): 666 - 673. [Abstract] [Full Text] [PDF]

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				S. P. Colgan, R. M. Hershberg, G. T. Furuta, and R. S. Blumberg Ligation of intestinal epithelial CD1d induces bioactive IL-10: Critical role of the cytoplasmic tail in autocrine signaling PNAS, November 23, 1999; 96(24): 13938 - 13943. [Abstract] [Full Text] [PDF]

ARTICLES

CD1 molecule expression on human monocytes induced by granulocyte- macrophage colony-stimulating factor

				R. Huttinger, G. Staffler, O. Majdic, and H. Stockinger Analysis of the early biogenesis of CD1b: involvement of the chaperones calnexin and calreticulin, the proteasome and {beta}2-microglobulin Int. Immunol., October 1, 1999; 11(10): 1615 - 1623. [Abstract] [Full Text] [PDF]

				P. A. Sieling, D. Jullien, M. Dahlem, T. F. Tedder, T. H. Rea, R. L. Modlin, and S. A. Porcelli CD1 Expression by Dendritic Cells in Human Leprosy Lesions: Correlation with Effective Host Immunity J. Immunol., February 1, 1999; 162(3): 1851 - 1858. [Abstract] [Full Text] [PDF]

				K. Takahashi, K. Asagoe, J. Zaishun, H. Yanai, T. Yoshino, K. Hayashi, and T. Akagi Heterogeneity of Dendritic Cells in Human Superficial Lymph Node : In Vitro Maturation of Immature Dendritic Cells intoMature or Activated Interdigitating Reticulum Cells Am. J. Pathol., September 1, 1998; 153(3): 745 - 755. [Abstract] [Full Text] [PDF]

				M. Amano, N. Baumgarth, M. D. Dick, L. Brossay, M. Kronenberg, L. A. Herzenberg, and S. Strober CD1 Expression Defines Subsets of Follicular and Marginal Zone B Cells in the Spleen: {beta}2-Microglobulin-Dependent and Independent Forms J. Immunol., August 15, 1998; 161(4): 1710 - 1717. [Abstract] [Full Text] [PDF]

				R. M. Fairhurst, C. X. Wang, P. A. Sieling, R. L. Modlin, and J. Braun CD1 Presents Antigens from a Gram-Negative Bacterium, Haemophilus influenzae Type b Infect. Immun., August 1, 1998; 66(8): 3523 - 3526. [Abstract] [Full Text] [PDF]

				D. N.J. Hart Dendritic Cells: Unique Leukocyte Populations Which Control the Primary Immune Response Blood, November 1, 1997; 90(9): 3245 - 3287. [Full Text] [PDF]

				P. Szabolcs, H.F. Gallardo, D. H. Ciocon, M. Sadelain, and J. W. Young Retrovirally Transduced Human Dendritic Cells Express a Normal Phenotype and Potent T-Cell Stimulatory Capacity Blood, September 15, 1997; 90(6): 2160 - 2167. [Abstract] [Full Text] [PDF]

				N. Sharfe, H. K. Dadi, M. Shahar, and C. M. Roifman Human immune disorder arising from mutation of the alpha �chain of the interleukin-2�receptor PNAS, April 1, 1997; 94(7): 3168 - 3171. [Abstract] [Full Text] [PDF]

				J. Young and R. Steinman The hematopoietic development of dendritic cells: a distinct pathway for myeloid differentiation Stem Cells, July 1, 1996; 14(4): 376 - 387. [Abstract]