Distinct developmental patterns of short-term and long-term functioning lymphoid and myeloid precursors defined by competitive limiting dilution analysis in vivo

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Distinct developmental patterns of short-term and long-term functioning lymphoid and myeloid precursors defined by competitive limiting dilution analysis in vivo

RK Zhong, CM Astle and DE Harrison
The Jackson Laboratory, Bar Harbor, ME 04609, USA.

Functional abilities of individual marrow precursor cells were defined by competitive limiting dilution without enrichment, tissue culture, or induced marking, manipulations that might affect cell functions. We directly measured long-term repopulating abilities in limiting doses (0.25-1.0 x 10(5)) of genetically marked congenic marrow cells. These were mixed with a standard dose of 4 or 5 x 10(5) competitor marrow cells, which contained a predictable distribution of precursor cells and allowed quantitative assays. Percentages of donor type T and B lymphocytes, granulocytes, platelets, and erythrocytes were measured in recipient blood. Applying the maximum likelihood statistic, concentrations (per 10(5)) of precursors repopulating at least one lineage were: 4.7 and 6.0 after 6 wk, 1.6 and 2.7 after 14 to 15 wk, and 1.2 and 1.9 after 30 to 32 wk; concentrations repopulating at least three lineages were 2.3 and 3.4 after 6 wk, 0.9 and 1.7 after 14 to 15 wk, and 0.9 and 1.3 after 32 wk. Almost all precursors functioning after 14 wk repopulated all lineages. At 6 wk, similar levels of donor cells were produced in recipients of both short- and long-term precursors. However, after 14 to 32 wk, contributions by short-term precursors (about two-thirds of the precursors) dropped to zero, while contributions by long-term precursors (about one-quarter of the precursors) expanded severalfold. The latter permanently repopulated all lineages after 30 to 32 wk, functioning as the most primitive stem cells (PSC) in the immune and myeloid systems. Nearly all the variance in long-term repopulated recipients was explained using the Poisson distribution to calculate donor percentages in a model where each donor and competitor PSC contributed equally.

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				R. V. Gardner, E. McKinnon, C. Poretta, and L. Leiva Hemopoietic Function After Use of IL-1 with Chemotherapy or Irradiation J. Immunol., August 1, 2003; 171(3): 1202 - 1206. [Abstract] [Full Text] [PDF]

				L. S. Haneline, X. Li, S. L. M. Ciccone, P. Hong, Y. Yang, H. E. Broxmeyer, S.-H. Lee, A. Orazi, E. F. Srour, and D. W. Clapp Retroviral-mediated expression of recombinant Fancc enhances the repopulating ability of Fancc-/- hematopoietic stem cells and decreases the risk of clonal evolution Blood, February 15, 2003; 101(4): 1299 - 1307. [Abstract] [Full Text] [PDF]

				C.-Z. Chen, M. Li, D. de Graaf, S. Monti, B. Gottgens, M.-J. Sanchez, E. S. Lander, T. R. Golub, A. R. Green, and H. F. Lodish Identification of endoglin as a functional marker that defines long-term repopulating hematopoietic stem cells PNAS, November 26, 2002; 99(24): 15468 - 15473. [Abstract] [Full Text] [PDF]

				K. Ohmura, H. Kawamoto, M. Lu, T. Ikawa, S. Ozaki, K. Nakao, and Y. Katsura Immature Multipotent Hemopoietic Progenitors Lacking Long-Term Bone Marrow-Reconstituting Activity in the Aorta-Gonad-Mesonephros Region of Murine Day 10 Fetuses J. Immunol., March 1, 2001; 166(5): 3290 - 3296. [Abstract] [Full Text] [PDF]

				J. Chen, C. M. Astle, C. E. Muller-Sieburg, and D. E. Harrison Primitive hematopoietic stem cell function in vivo is uniquely high in the CXB-12 mouse strain Blood, December 15, 2000; 96(13): 4124 - 4131. [Abstract] [Full Text] [PDF]

				J. L. Abkowitz, D. Golinelli, D. E. Harrison, and P. Guttorp In vivo kinetics of murine hemopoietic stem cells Blood, November 15, 2000; 96(10): 3399 - 3405. [Abstract] [Full Text] [PDF]

				H. Ema, H. Takano, K. Sudo, and H. Nakauchi In Vitro Self-Renewal Division of Hematopoietic Stem Cells J. Exp. Med., November 6, 2000; 192(9): 1281 - 1288. [Abstract] [Full Text] [PDF]

				Y. Zhao, Y. Lin, Y. Zhan, G. Yang, J. Louie, D. E. Harrison, and W. F. Anderson Murine hematopoietic stem cell characterization and its regulation in BM transplantation Blood, November 1, 2000; 96(9): 3016 - 3022. [Abstract] [Full Text] [PDF]

				C. E. Muller-Sieburg, R. H. Cho, H. B. Sieburg, S. Kupriyanov, and R. Riblet Genetic control of hematopoietic stem cell frequency in mice is mostly cell autonomous Blood, April 1, 2000; 95(7): 2446 - 2448. [Abstract] [Full Text] [PDF]

				L. Crisa, V. Cirulli, K. A. Smith, M. H. Ellisman, B. E. Torbett, and D. R. Salomon Human Cord Blood Progenitors Sustain Thymic T-Cell Development and a Novel Form of Angiogenesis Blood, December 1, 1999; 94(11): 3928 - 3940. [Abstract] [Full Text] [PDF]

				L. S. Haneline, T. A. Gobbett, R. Ramani, M. Carreau, M. Buchwald, M. C. Yoder, and D. W. Clapp Loss of FancC Function Results in Decreased Hematopoietic Stem Cell Repopulating Ability Blood, July 1, 1999; 94(1): 1 - 8. [Abstract] [Full Text] [PDF]

				J. L. Abkowitz, M. R. Taboada, K. M. Sabo, and G. H. Shelton The Ex Vivo Expansion of Feline Marrow Cells Leads to Increased Numbers of BFU-E and CFU-GM but a Loss of Reconstituting Ability Stem Cells, July 1, 1998; 16(4): 288 - 293. [Abstract] [Full Text]

ARTICLES

Distinct developmental patterns of short-term and long-term functioning lymphoid and myeloid precursors defined by competitive limiting dilution analysis in vivo

				D. E. Harrison and C. M. Astle Short- and Long-Term Multilineage Repopulating Hematopoietic Stem Cells in Late Fetal and Newborn Mice: Models for Human Umbilical Cord Blood Blood, July 1, 1997; 90(1): 174 - 181. [Abstract] [Full Text] [PDF]

				J. D. Cashman, T. Lapidot, J. C.Y. Wang, M. Doedens, L. D. Shultz, P. Lansdorp, J. E. Dick, and C. J. Eaves Kinetic Evidence of the Regeneration of Multilineage Hematopoiesis From Primitive Cells in Normal Human Bone Marrow Transplanted Into Immunodeficient Mice Blood, June 15, 1997; 89(12): 4307 - 4316. [Abstract] [Full Text] [PDF]