Identification of dendritic cell colony-forming units among normal human CD34+ bone marrow progenitors that are expanded by c-kit-ligand and yield pure dendritic cell colonies in the presence of granulocyte/macrophage colony-stimulating factor and tumor necrosis factor alpha [published erratum appears in J Exp Med 1996 Mar 1;183(3):1283]

doi:10.1084/jem.182.4.1111

This Article

	Full Text (PDF)
	Alert me when this article is cited
	Citation Map

Services

	Email this article
	Similar articles in this journal
	Similar articles in PubMed
	Alert me to new content in the JEM
	Download to citation manager

Citing Articles

	Citing Articles via HighWire
	Citing Articles via CrossRef
	Citing Articles via Google Scholar

Google Scholar

	Articles by Young, J. W.
	Articles by Moore, M. A.
	Search for Related Content

PubMed

	PubMed Citation
	Articles by Young, J. W.
	Articles by Moore, M. A.


Social Bookmarking

	What's this?

ARTICLES

Identification of dendritic cell colony-forming units among normal human CD34+ bone marrow progenitors that are expanded by c-kit-ligand and yield pure dendritic cell colonies in the presence of granulocyte/macrophage colony-stimulating factor and tumor necrosis factor alpha [published erratum appears in J Exp Med 1996 Mar 1;183(3):1283]

JW Young, P Szabolcs and MA Moore
Laboratory of Cellular Physiology and Immunology, Rockefeller University, New York 10021, USA.

Several cytokines, especially granulocyte/macrophage colony-stimulating factor (GM-CSF) and tumor necrosis factor alpha (TNF-alpha), have been identified that foster the development of dendritic cells from blood and bone marrow precursors in suspension cultures. These precursors are reported to be infrequent or to yield small numbers of dendritic cells in colony-forming assays. Here we readily identify dendritic cell colony-forming units (CFU-DC) that give rise to pure dendritic cell colonies. Human CD34+ bone marrow progenitors were expanded in semi- solid cultures with serum-replete medium containing c-kit-ligand, GM- CSF, and TNF-alpha. The addition of TNF-alpha to GM-CSF did not alter the number of typical GM colonies but did generate pure dendritic cell colonies that accounted for approximately 40% of the total colony growth. When the two distinct types of colonies were plucked from methylcellulose and tested for T cell-stimulatory activity in the mixed leukocyte reaction, the potency of colony-derived dendritic cells exceeded that of CFU-GM progeny from the same cultures by at least 1.5- 2 logs. Immunophenotyping and cytochemical staining of the CFU-DC- derived progeny was also characteristic of dendritic cells. Other myeloid cells were not identified in these colonies. The addition of c- kit-ligand to GM-CSF- and TNF-alpha-supplemented suspensions of CD34+ bone marrow cells expanded CFU-DCs almost 100-fold by 14 d. We conclude that normal human CD34+ bone marrow cells include substantial numbers of clonogenic progenitors, distinct from CFU-GMs, that can give rise to pure dendritic cell colonies. These CFU-DCs can be expanded for several weeks by in vitro culture with c-kit-ligand, and their differentiation requires exogenous TNF-alpha in addition to GM-CSF. We speculate that this dendritic cell-committed pathway may in the steady state contribute cells to the epidermis and afferent lymph, where dendritic cells are the principal myeloid cell type, and may increase the numbers of these specialized antigen-presenting cells during T cell-mediated immune responses.
Add to CiteULike CiteULike Add to Complore Complore Add to Connotea Connotea Add to Del.icio.us Del.icio.us Add to Digg Digg Add to Reddit Reddit Add to Technorati Technorati What's this?

This article has been cited by other articles:

Aranami, T., Miyake, S., Yamamura, T. (2006). Differential Expression of CD11c by Peripheral Blood NK Cells Reflects Temporal Activity of Multiple Sclerosis. J. Immunol. 177: 5659-5667 [Abstract] [Full Text]
Slukvin, I. I., Vodyanik, M. A., Thomson, J. A., Gumenyuk, M. E., Choi, K.-D. (2006). Directed Differentiation of Human Embryonic Stem Cells into Functional Dendritic Cells through the Myeloid Pathway.. J. Immunol. 176: 2924-2932 [Abstract] [Full Text]
Yuan, J., Latouche, J.-B., Hodges, J., Houghton, A. N., Heller, G., Sadelain, M., Riviere, I., Young, J. W. (2006). Langerhans-Type Dendritic Cells Genetically Modified to Express Full-Length Antigen Optimally Stimulate CTLs in a CD4-Dependent Manner. J. Immunol. 176: 2357-2365 [Abstract] [Full Text]
Saito, K., Hirokawa, M., Inaba, K., Fukaya, H., Kawabata, Y., Komatsuda, A., Yamashita, J., Sawada, K. (2006). Phagocytosis of codeveloping megakaryocytic progenitors by dendritic cells in culture with thrombopoietin and tumor necrosis factor-{alpha} and its possible role in hemophagocytic syndrome. Blood 107: 1366-1374 [Abstract] [Full Text]
Appel, S., Balabanov, S., Brummendorf, T. H., Brossart, P. (2005). Effects of Imatinib on Normal Hematopoiesis and Immune Activation. Stem Cells 23: 1082-1088 [Abstract] [Full Text]
Rossi, M., Young, J. W. (2005). Human Dendritic Cells: Potent Antigen-Presenting Cells at the Crossroads of Innate and Adaptive Immunity. J. Immunol. 175: 1373-1381 [Abstract] [Full Text]
Li, G., Kim, Y.-J., Broxmeyer, H. E. (2005). Macrophage Colony-Stimulating Factor Drives Cord Blood Monocyte Differentiation into IL-10highIL-12absent Dendritic Cells with Tolerogenic Potential. J. Immunol. 174: 4706-4717 [Abstract] [Full Text]
Chang-Rodriguez, S., Hoetzenecker, W., Schwarzler, C., Biedermann, T., Saeland, S., Elbe-Burger, A. (2005). Fetal and neonatal murine skin harbors Langerhans cell precursors. J. Leukoc. Biol. 77: 352-360 [Abstract] [Full Text]
Appel, S., Rupf, A., Weck, M. M., Schoor, O., Brummendorf, T. H., Weinschenk, T., Grunebach, F., Brossart, P. (2005). Effects of Imatinib on Monocyte-Derived Dendritic Cells Are Mediated by Inhibition of Nuclear Factor-{kappa}B and Akt Signaling Pathways. Clin. Cancer Res. 11: 1928-1940 [Abstract] [Full Text]
Cravens, P. D., Melkus, M. W., Padgett-Thomas, A., Islas-Ohlmayer, M., del P. Martin, M., Garcia, J. V. (2005). Development and Activation of Human Dendritic Cells In Vivo in a Xenograft Model of Human Hematopoiesis. Stem Cells 23: 264-278 [Abstract] [Full Text]
Yuan, J., Latouche, J.-B., Reagan, J. L., Heller, G., Riviere, I., Sadelain, M., Young, J. W. (2005). Langerhans Cells Derived from Genetically Modified Human CD34+ Hemopoietic Progenitors Are More Potent Than Peptide-Pulsed Langerhans Cells for Inducing Antigen-Specific CD8+ Cytolytic T Lymphocyte Responses. J. Immunol. 174: 758-766 [Abstract] [Full Text]
Encabo, A., Solves, P., Mateu, E., Sepulveda, P., Carbonell-Uberos, F., Minana, M. D. (2004). Selective Generation of Different Dendritic Cell Precursors from CD34+ Cells by Interleukin-6 and Interleukin-3. Stem Cells 22: 725-740 [Abstract] [Full Text]
Chklovskaia, E., Nowbakht, P., Nissen, C., Gratwohl, A., Bargetzi, M., Wodnar-Filipowicz, A. (2004). Reconstitution of dendritic and natural killer-cell subsets after allogeneic stem cell transplantation: effects of endogenous flt3 ligand. Blood 103: 3860-3868 [Abstract] [Full Text]
O'Neill, H. C., Wilson, H. L. (2004). Limitations with in vitro production of dendritic cells using cytokines. J. Leukoc. Biol. 75: 600-603 [Abstract] [Full Text]
Moldenhauer, A., Nociari, M., Lam, G., Salama, A., Rafii, S., Moore, M. A.S. (2004). Tumor Necrosis Factor Alpha-Stimulated Endothelium: An Inducer of Dendritic Cell Development from Hematopoietic Progenitors and Myeloid Leukemic Cells. Stem Cells 22: 144-157 [Abstract] [Full Text]
Appel, S., Boehmler, A. M., Grunebach, F., Muller, M. R., Rupf, A., Weck, M. M., Hartmann, U., Reichardt, V. L., Kanz, L., Brummendorf, T. H., Brossart, P. (2004). Imatinib mesylate affects the development and function of dendritic cells generated from CD34+ peripheral blood progenitor cells. Blood 103: 538-544 [Abstract] [Full Text]
Li, X., Udagawa, N., Takami, M., Sato, N., Kobayashi, Y., Takahashi, N. (2003). p38 Mitogen-Activated Protein Kinase Is Crucially Involved in Osteoclast Differentiation But Not in Cytokine Production, Phagocytosis, or Dendritic Cell Differentiation of Bone Marrow Macrophages. Endocrinology 144: 4999-5005 [Abstract] [Full Text]
Lindner, I., Kharfan-Dabaja, M. A., Ayala, E., Kolonias, D., Carlson, L. M., Beazer-Barclay, Y., Scherf, U., Hnatyszyn, J. H., Lee, K. P. (2003). Induced Dendritic Cell Differentiation of Chronic Myeloid Leukemia Blasts Is Associated with Down-Regulation of BCR-ABL. J. Immunol. 171: 1780-1791 [Abstract] [Full Text]
Weber, M., Lange, C., Gunther, W., Franz, M., Kremmer, E., Kolb, H.-J. (2003). Minor Histocompatibility Antigens on Canine Hemopoietic Progenitor Cells. J. Immunol. 170: 5861-5868 [Abstract] [Full Text]
Szabolcs, P., Park, K.-D., Reese, M., Marti, L., Broadwater, G., Kurtzberg, J. (2003). Absolute Values of Dendritic Cell Subsets in Bone Marrow, Cord Blood, and Peripheral Blood Enumerated by a Novel Method. Stem Cells 21: 296-303 [Abstract] [Full Text]
Ratzinger, G., Reagan, J. L., Heller, G., Busam, K. J., Young, J. W. (2003). Differential CD52 expression by distinct myeloid dendritic cell subsets: implications for alemtuzumab activity at the level of antigen presentation in allogeneic graft-host interactions in transplantation. Blood 101: 1422-1429 [Abstract] [Full Text]
Beaulieu, S., Robbiani, D. F., Du, X., Rodrigues, E., Ignatius, R., Wei, Y., Ponath, P., Young, J. W., Pope, M., Steinman, R. M., Mojsov, S. (2002). Expression of a Functional Eotaxin (CC Chemokine Ligand 11) Receptor CCR3 by Human Dendritic Cells. J. Immunol. 169: 2925-2936 [Abstract] [Full Text]
Armstrong, A C, Hawkins, R E (2001). Vaccines in oncology: background and clinical potential. Br. J. Radiol. 74: 991-1002 [Abstract] [Full Text]
Muench, M. O., Barcena, A. (2001). Broad Distribution of Colony-Forming Cells with Erythroid, Myeloid, Dendritic Cell, and NK Cell Potential Among CD34++ Fetal Liver Cells. J. Immunol. 167: 4902-4909 [Abstract] [Full Text]
Hao, Q.-L., Zhu, J., Price, M. A., Payne, K. J., Barsky, L. W., Crooks, G. M. (2001). Identification of a novel, human multilymphoid progenitor in cord blood. Blood 97: 3683-3690 [Abstract] [Full Text]
Martinon-Ego, C., Berthier, R., Cretin, F., Collin, V., Laharie, A.-M., Marche, P. N. (2001). Murine Dendritic Cells Derived from Myeloid Progenitors of the Thymus Are Unable to Produce Bioactive IL-12p70. J. Immunol. 166: 5008-5017 [Abstract] [Full Text]
Vandenabeele, S., Hochrein, H., Mavaddat, N., Winkel, K., Shortman, K. (2001). Human thymus contains 2 distinct dendritic cell populations. Blood 97: 1733-1741 [Abstract] [Full Text]
Curti, A., Fogli, M., Ratta, M., Tura, S., Lemoli, R. M. (2001). Stem Cell Factor and FLT3-Ligand Are Strictly Required to Sustain the Long-Term Expansion of Primitive CD34+DR- Dendritic Cell Precursors. J. Immunol. 166: 848-854 [Abstract] [Full Text]
Baggers, J., Ratzinger, G., Young, J. W. (2000). Dendritic Cells as Immunologic Adjuvants for the Treatment of Cancer. JCO 18: 3879-3882 [Full Text]
Iversen, P. O., Hjeltnes, N., Holm, B., Flatebo, T., Strom-Gundersen, I., Ronning, W., Stanghelle, J., Benestad, H. B. (2000). Depressed immunity and impaired proliferation of hematopoietic progenitor cells in patients with complete spinal cord injury. Blood 96: 2081-2083 [Abstract] [Full Text]
Fritsche, J., Moser, M., Faust, S., Peuker, A., Buttner, R., Andreesen, R., Kreutz, M. (2000). Molecular cloning and characterization of a human metalloprotease disintegrin--- a novel marker for dendritic cell differentiation. Blood 96: 732-739 [Abstract] [Full Text]
Spitler, L. E., Grossbard, M. L., Ernstoff, M. S., Silver, G., Jacobs, M., Hayes, F. A., Soong, S. J. (2000). Adjuvant Therapy of Stage III and IV Malignant Melanoma Using Granulocyte-Macrophage Colony-Stimulating Factor. JCO 18: 1614-1621 [Abstract] [Full Text]
Ribas, A., Butterfield, L. H., Economou, J. S. (2000). Genetic Immunotherapy for Cancer. The Oncologist 5: 87-98 [Abstract] [Full Text]
Anderson, K. L., Perkin, H., Surh, C. D., Venturini, S., Maki, R. A., Torbett, B. E. (2000). Transcription Factor PU.1 Is Necessary for Development of Thymic and Myeloid Progenitor-Derived Dendritic Cells. J. Immunol. 164: 1855-1861 [Abstract] [Full Text]
Seo, N., Tokura, Y., Nishijima, T., Hashizume, H., Furukawa, F., Takigawa, M. (2000). Percutaneous peptide immunization via corneum barrier-disrupted murine skin for experimental tumor immunoprophylaxis. Proc. Natl. Acad. Sci. USA 97: 371-376 [Abstract] [Full Text]
Feng, B., Inaba, M., Lian, Z., Cui, Y., Toki, J., Ito, T., Jin, T., Fan, T., Yang, G., Yu, C., Kushida, T., Ikehara, S. (2000). Development of Mouse Dendritic Cells from Lineage-Negative c-kit�low Pluripotent Hemopoietic Stem Cells In Vitro. Stem Cells 18: 53-60 [Abstract] [Full Text]
Brenner, M., Rossig, C., Sili, U., Young, J. W., Goulmy, E. (2000). Transfusion Medicine: New Clinical Applications of Cellular Immunotherapy. ASH Education Book 2000: 356-375 [Abstract] [Full Text]
Avigan, D., Wu, Z., Gong, J., Joyce, R., Levine, J., Elias, A., Richardson, P., Milano, J., Kennedy, L., Anderson, K., Kufe, D. (1999). Selective in Vivo Mobilization with Granulocyte Macrophage Colony-stimulating Factor (GM-CSF)/Granulocyte-CSF ascompared to G-CSF Alone of Dendritic Cell Progenitors from Peripheral Blood Progenitor Cells in Patients with Advanced Breast Cancer Undergoing Autologous Transplantation. Clin. Cancer Res. 5: 2735-2741 [Abstract] [Full Text]
Spanier, T. B., Chen, J. M., Oz, M. C., Stern, D. M., Rose, E. A., Schmidt, A. M. (1999). TIME-DEPENDENT CELLULAR POPULATION OF TEXTURED-SURFACE LEFT VENTRICULAR ASSIST DEVICES CONTRIBUTES TO THE DEVELOPMENT OF A BIPHASIC SYSTEMIC PROCOAGULANT RESPONSE. J. Thorac. Cardiovasc. Surg. 118: 404-413 [Abstract] [Full Text]
Fischer, H.-G., Bielinsky, A. K. (1999). Antigen presentation function of brain-derived dendriform cells depends on astrocyte help. Int Immunol 11: 1265-1274 [Abstract] [Full Text]
Borges, L., Miller, R. E., Jones, J., Ariail, K., Whitmore, J., Fanslow, W., Lynch, D. H. (1999). Synergistic Action of fms-Like Tyrosine Kinase 3 Ligand and CD40 Ligand in the Induction of Dendritic Cells and Generation of Antitumor Immunity In Vivo. J. Immunol. 163: 1289-1297 [Abstract] [Full Text]
St. Louis, D. C., Woodcock, J. B., Fransozo, G., Blair, P. J., Carlson, L. M., Murillo, M., Wells, M. R., Williams, A. J., Smoot, D. S., Kaushal, S., Grimes, J. L., Harlan, D. M., Chute, J. P., June, C. H., Siebenlist, U., Lee, K. P. (1999). Evidence for Distinct Intracellular Signaling Pathways in CD34+ Progenitor to Dendritic Cell Differentiation from a Human Cell Line Model. J. Immunol. 162: 3237-3248 [Abstract] [Full Text]
Armitage, J. O. (1998). Emerging Applications of Recombinant Human Granulocyte-Macrophage Colony-Stimulating Factor. Blood 92: 4491-4508 [Full Text]
Wang, J., Saffold, S., Cao, X., Krauss, J., Chen, W. (1998). Eliciting T Cell Immunity Against Poorly Immunogenic Tumors by Immunization with Dendritic Cell-Tumor Fusion Vaccines. J. Immunol. 161: 5516-5524 [Abstract] [Full Text]
Cavanagh, L. L., Saal, R. J., Grimmett, K. L., Thomas, R. (1998). Proliferation in Monocyte-Derived Dendritic Cell Cultures Is Caused by Progenitor Cells Capable of Myeloid Differentiation. Blood 92: 1598-1607 [Abstract] [Full Text]
Liu, L., Zhang, M., Jenkins, C., MacPherson, G. G. (1998). Dendritic Cell Heterogeneity In Vivo: Two Functionally Different Dendritic Cell Populations in Rat Intestinal Lymph Can Be Distinguished by CD4 Expression. J. Immunol. 161: 1146-1155 [Abstract] [Full Text]
Zhang, Y., Harada, A., Wang, J.-b., Zhang, Y.-y., Hashimoto, S.-i., Naito, M., Matsushima, K. (1998). Bifurcated Dendritic Cell Differentiation In Vitro From Murine Lineage Phenotype-Negative c-kit+ Bone Marrow Hematopoietic Progenitor Cells. Blood 92: 118-128 [Abstract] [Full Text]
Ryncarz, R. E., Anasetti, C. (1998). Expression of CD86 on Human Marrow CD34+ Cells Identifies Immunocompetent Committed Precursors of Macrophages and Dendritic Cells. Blood 91: 3892-3900 [Abstract] [Full Text]
Davis, T. A., Saini, A. A., Blair, P. J., Levine, B. L., Craighead, N., Harlan, D. M., June, C. H., Lee, K. P. (1998). Phorbol Esters Induce Differentiation of Human CD34+ Hemopoietic Progenitors to Dendritic Cells: Evidence for Protein Kinase C-Mediated Signaling. J. Immunol. 160: 3689-3697 [Abstract] [Full Text]
Frey, B. M., Hackett, N. R., Bergelson, J. M., Finberg, R., Crystal, R. G., Moore, M. A.S., Rafii, S. (1998). High-Efficiency Gene Transfer Into Ex Vivo Expanded Human Hematopoietic Progenitors and Precursor Cells by Adenovirus Vectors. Blood 91: 2781-2792 [Abstract] [Full Text]
Miralles, G. D., Smith, C. A., Whichard, L. P., Morse, M. A., Haynes, B. F., Patel, D. D. (1998). CD34+CD38-lin- Cord Blood Cells Develop into Dendritic Cells in Human Thymic Stromal Monolayers and Thymic Nodules. J. Immunol. 160: 3290-3298 [Abstract] [Full Text]
Hahn, G., Jores, R., Mocarski, E. S. (1998). Cytomegalovirus remains latent in a common precursor of dendritic and myeloid cells. Proc. Natl. Acad. Sci. USA 95: 3937-3942 [Abstract] [Full Text]
de Saint-Vis, B., Fugier-Vivier, I., Massacrier, C., Gaillard, C., Vanbervliet, B., Ait-Yahia, S., Banchereau, J., Liu, Y.-J., Lebecque, S., Caux, C. (1998). The Cytokine Profile Expressed by Human Dendritic Cells Is Dependent on Cell Subtype and Mode of Activation. J. Immunol. 160: 1666-1676 [Abstract] [Full Text]
Rovere, P., Zimmermann, V. S., Forquet, F., Demandolx, D., Trucy, J., Ricciardi-Castagnoli, P., Davoust, J. (1998). Dendritic cell maturation and antigen presentation in the absence of�invariant�chain. Proc. Natl. Acad. Sci. USA 95: 1067-1072 [Abstract] [Full Text]
Salomon, B., Cohen, J. L., Masurier, C., Klatzmann, D. (1998). Three Populations of Mouse Lymph Node Dendritic Cells with Different Origins and Dynamics. J. Immunol. 160: 708-717 [Abstract] [Full Text]
Wong, B. R., Josien, R., Lee, S. Y., Sauter, B., Li, H.-L., Steinman, R. M., Choi, Y. (1997). TRANCE (Tumor Necrosis Factor [TNF]-related Activation-induced Cytokine), a New TNF Family Member Predominantly Expressed in T cells, Is a Dendritic Cell-specific Survival Factor. J. Exp. Med. 186: 2075-2080 [Abstract] [Full Text]
Zhang, Y., Mukaida, N., Wang, J.-b., Harada, A., Akiyama, M., Matsushima, K. (1997). Induction of Dendritic Cell Differentiation by Granulocyte-Macrophage Colony-Stimulating Factor, Stem Cell Factor, and Tumor Necrosis Factor alpha �In Vitro From Lineage Phenotypes-Negative c-kit+ Murine Hematopoietic Progenitor Cells. Blood 90: 4842-4853 [Abstract] [Full Text]
Olweus, J., BitMansour, A., Warnke, R., Thompson, P. A., Carballido, J., Picker, L. J., Lund-Johansen, F. (1997). Dendritic cell ontogeny: A human dendritic cell lineage of myeloid�origin. Proc. Natl. Acad. Sci. USA 94: 12551-12556 [Abstract] [Full Text]
Shortman, K., Caux, C. (1997). Dendritic Cell Development: Multiple Pathways to Nature's Adjuvants. Stem Cells 15: 409-419 [Abstract] [Full Text]
Tarte, K., Lu, Z. Y., Fiol, G., Legouffe, E., Rossi, J.-F., Klein, B. (1997). Generation of Virtually Pure and Potentially Proliferating Dendritic Cells From Non-CD34 Apheresis Cells From Patients With Multiple Myeloma. Blood 90: 3482-3495 [Abstract] [Full Text]
Reddy, A., Sapp, M., Feldman, M., Subklewe, M., Bhardwaj, N. (1997). A Monocyte Conditioned Medium Is More Effective Than Defined Cytokines in Mediating the Terminal Maturation of Human Dendritic Cells. Blood 90: 3640-3646 [Abstract] [Full Text]
Broudy, V. C. (1997). Stem Cell Factor and Hematopoiesis. Blood 90: 1345-1364 [Full Text]
Strobl, H., Bello-Fernandez, C., Riedl, E., Pickl, W. F., Majdic, O., Lyman, S. D., Knapp, W. (1997). flt3 Ligand in Cooperation With Transforming Growth Factor-beta 1 Potentiates In Vitro Development of Langerhans-Type Dendritic Cells and Allows Single-Cell Dendritic Cell Cluster Formation Under Serum-Free Conditions. Blood 90: 1425-1434 [Abstract] [Full Text]
Yamaguchi, Y., Tsumura, H., Miwa, M., Inaba, K. (1997). Contrasting Effects of TGF-{beta}1 and TNF-{alpha} on the Development of Dendritic Cells from Progenitors in Mouse Bone Marrow. Stem Cells 15: 144-153 [Abstract] [Full Text]
Winzler, C., Rovere, P., Rescigno, M., Granucci, F., Penna, G., Adorini, L., Zimmermann, V. S., Davoust, J., Ricciardi-Castagnoli, P. (1997). Maturation Stages of Mouse Dendritic Cells in Growth Factor-dependent Long-Term Cultures. J. Exp. Med. 185: 317-328 [Abstract] [Full Text]
Saunders, D., Lucas, K., Ismaili, J., Wu, L., Maraskovsky, E., Dunn, A., Shortman, K. (1996). Dendritic Cell Development in Culture from Thymic Precursor Cells in the Absence of Granulocyte/Macrophage Colony-stimulating Factor. J. Exp. Med. 184: 2185-2196 [Abstract] [Full Text]
Young, J., Steinman, R. (1996). The hematopoietic development of dendritic cells: a distinct pathway for myeloid differentiation. Stem Cells 14: 376-387 [Abstract]