Faculty Research 1980 - 1989

Title

Numbers and functions of transplantable primitive immunohematopoietic stem cells. Effects of age.

Document Type

Article

Publication Date

1989

Keywords

Animal, Bone-Marrow: im, ph, tr, Cell-Differentiation, Dose-Response-Relationship-Immunologic, Erythrocyte-Count, Erythrocytes: im, ph, tr, Female, Hematopoietic-Stem-Cells: im, ph, tr, Leukocyte-Count, Lymphocytes: im, ph, tr, Male, Mice, Mice-Inbred-C57BL, SUPPORT-U-S-GOVT-P-H-S

JAX Source

J Immunol 1989 Jun 1; 142(11):3833-40.

Grant

DK25687, AG00594, AG06232

Abstract

This report introduces a new method in immunology, a use of the binomial formula with covariance to estimate numbers and proliferative patterns of the most primitive lymphoid precursors. We studied the primitive stem cells (PSC) from which most circulating lymphocytes and erythrocytes were descended during 300 to 400 days in recipients of genetically distinguishable marrow mixtures in competitive repopulation. Equivalent PSC concentrations (Eq. PSC Conc. or Conc.) were estimated, with the notion of common PSCs contributing equally in lymphoid and myeloid compartments. Similar estimation was done for common PSCs from which lymphocytes (and erythrocytes) drawn at successive sampling times about 100 days apart were descended. The percentages of lymphocyte and erythrocyte types, P1 and Pe, measured in each recipient were closely correlated, especially after 6 months and later. Close correlations were also found in cells sampled at successive one hundred day intervals, especially after the first. Apparently a few PSCs or their direct descendents produced most of the blood lymphocytes and E, and this production continued for many months. Concentrations of these PSCs (Equivalent PSC concentrations) were about one per 10(5) marrow cells from young donors. This is much lower than previous estimates, probably because our methods focus only on the most interesting precursors, those from which most of the circulating cells were descended. Equivalent PSC concentrations were about two-fold higher in old donors; old marrow produced correspondingly higher P1 and Pe values, but these declined with time. There were also small increases with time in the P1 and Pe values with young donors. To explain the temporal trends, we suggest that excess concentrations of precursors less primitive than PSC are present in old marrow, and their contribution to the differentiated cell population gradually declines. Possibly such precursors, as well as true PSC, proliferate in old donors to compensate for deficiencies that develop with age.

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