Demonstration of the origin of human mast cells from CD34+ bone marrow progenitor cells

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Demonstration of the origin of human mast cells from CD34+ bone marrow progenitor cells

AS Kirshenbaum, SW Kessler, JP Goff and DD Metcalfe
Mast Cell Physiology Section National Institute of Allergy and Infectious Diseases National Institutes of Health, Bethesda, MD 20892.

It has been established that murine mast cells are derived from a pluripotent bone marrow stem cell. In humans, the corresponding pluripotent cell is included in the CD34+ bone marrow population. To determine whether human mast cells arise from CD34+ human progenitor cells, enriched CD34+ cells were cultured over agarose surfaces (interphase cultures) or cocultured with mouse 3T3 fibroblasts in the presence of recombinant human (rh) IL-3. The presence of both mast cells and basophils was determined using a variety of histochemical and immunohistologic techniques, including immunogold labeling for IgE receptors and mast cell tryptase. Mast cells and basophils continued to appear in cultures when T cell, B cell, macrophage, and eosinophil committed progenitor cells were removed, but were not seen in cultures from which CD34+ cells were removed. CD34+ cells layered over agarose in the presence of rhIL-3 were shown to give rise to cultures that contained mast cells (1 to 5%) and basophils (25 to 40%). Cultures supplemented with rhIL-4 showed no additional increase in mast cells or basophils. CD34+ cells cocultured with 3T3 fibroblasts in the presence of rhIL-3 gave rise to mast cells within the fibroblast monolayer, which by 6 wk comprised up to 46% of the monolayer. CD34-cells on 3T3 fibroblasts gave rise to few mast cells (2% of the monolayer). Mast cell granules from interphase cultures contained homogeneous electron- dense material. In contrast, mast cells within 3T3 monolayers at 6 wk contained a variety of granule morphologies, including scroll, mixed, reticular, dense core, or homogeneous patterns. We conclude that both human mast cells and basophils arise from CD34+ human progenitor cells.

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				J. A. Boyce, E. A. Mellor, B. Perkins, Y.-C. Lim, and F. W. Luscinskas Human mast cell progenitors use alpha 4-integrin, VCAM-1, and PSGL-1 E-selectin for adhesive interactions with human vascular endothelium under flow conditions Blood, April 15, 2002; 99(8): 2890 - 2896. [Abstract] [Full Text] [PDF]

				Y. Kaburagi, M. Hasegawa, T. Nagaoka, Y. Shimada, Y. Hamaguchi, K. Komura, E. Saito, K. Yanaba, K. Takehara, T. Kadono, et al. The Cutaneous Reverse Arthus Reaction Requires Intercellular Adhesion Molecule 1 and L-Selectin Expression J. Immunol., March 15, 2002; 168(6): 2970 - 2978. [Abstract] [Full Text] [PDF]

				P. Samorapoompichit, H. P. Kiener, G.-H. Schernthaner, J.-H. Jordan, H. Agis, F. Wimazal, M. Baghestanian, A. Rezaie-Majd, W. R. Sperr, K. Lechner, et al. Detection of tryptase in cytoplasmic granules of basophils in patients with chronic myeloid leukemia and other myeloid neoplasms Blood, October 15, 2001; 98(8): 2580 - 2583. [Abstract] [Full Text] [PDF]

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ARTICLES

Demonstration of the origin of human mast cells from CD34+ bone marrow progenitor cells

				H. Yoshikawa, Y. Nakajima, and K. Tasaka Enhanced Expression of Fas-Associated Death Domain-Like IL-1-Converting Enzyme (FLICE)-Inhibitory Protein Induces Resistance to Fas-Mediated Apoptosis in Activated Mast Cells J. Immunol., December 1, 2000; 165(11): 6262 - 6269. [Abstract] [Full Text] [PDF]

				C. T. Mierke, M. Ballmaier, U. Werner, M. P. Manns, K. Welte, and S. C. Bischoff Human Endothelial Cells Regulate Survival and Proliferation of Human Mast Cells J. Exp. Med., September 11, 2000; 192(6): 801 - 812. [Abstract] [Full Text] [PDF]

				A. S. Kirshenbaum, J. P. Goff, T. Semere, B. Foster, L. M. Scott, and D. D. Metcalfe Demonstration That Human Mast Cells Arise From a Progenitor Cell Population That Is CD34+, c-kit+, and Expresses Aminopeptidase N (CD13) Blood, October 1, 1999; 94(7): 2333 - 2342. [Abstract] [Full Text] [PDF]

				H. Ochi, W. M. Hirani, Q. Yuan, D. S. Friend, K. F. Austen, and J. A. Boyce T Helper Cell Type 2 Cytokine�mediated Comitogenic Responses and CCR3 Expression During Differentiation of Human Mast Cells In Vitro J. Exp. Med., July 19, 1999; 190(2): 267 - 280. [Abstract] [Full Text] [PDF]

				N. Sawai, K. Koike, H. H. Mwamtemi, T. Kinoshita, Y. Kurokawa, K. Sakashita, T. Higuchi, K. Takeuchi, M. Shiohara, T. Kamijo, et al. Thrombopoietin Augments Stem Cell Factor-Dependent Growth of Human Mast Cells From Bone Marrow Multipotential Hematopoietic Progenitors Blood, June 1, 1999; 93(11): 3703 - 3712. [Abstract] [Full Text] [PDF]

				D. Kempuraj, H. Saito, A. Kaneko, K. Fukagawa, M. Nakayama, H. Toru, M. Tomikawa, H. Tachimoto, M. Ebisawa, A. Akasawa, et al. Characterization of Mast Cell-Committed Progenitors Present in Human Umbilical Cord Blood Blood, May 15, 1999; 93(10): 3338 - 3346. [Abstract] [Full Text] [PDF]

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				H. C. Bankl, T. Radaszkiewicz, G. W. Klappacher, D. Glogar, W. R. Sperr, K. Gro�schmidt, H. Bankl, K. Lechner, and P. Valent Increase and Redistribution of Cardiac Mast Cells in Auricular Thrombosis : Possible Role of kit Ligand Circulation, January 15, 1995; 91(2): 275 - 283. [Abstract] [Full Text]