scholarly journals Hematopoietic Stem Cell Regulation. II. Chronic Effects of Hypoxic-Hypoxia on CFU Kinetics

Blood ◽  
1973 ◽  
Vol 42 (1) ◽  
pp. 89-98 ◽  
Author(s):  
Brian I. Lord ◽  
Martin J. Murphy
Keyword(s):  
Stem Cell ◽  
Cell Kinetics ◽  
Relative Concentration ◽  
Femoral Shaft ◽  
Red Cell ◽  
Hematopoietic Stem ◽  
Stem Cell Regulation ◽  
Chronic Effects ◽  
Colony Forming Units ◽  
Cell Volumes

Abstract Hypobaric-hypoxia, an established stimulator of erythropoiesis, was used to perturb normal steady-state hematopoiesis and thereby to facilitate an analysis of stem cell kinetics. BDF1 male mice were exposed to a simulated altitude of 22,000 ft for 1-15 days. The following parameters were assessed at daily intervals: packed red cell volumes (PCV), femoral and splenic nucleated cellularity, the relative concentration and total number of colony-forming units (CFU, i.e., stem cells) in the femoral shaft and whole spleen, as well as the turnover of this population of cells using the "3H-thymidine-killing" technique. By 10 days of hypoxia the PCV had risen to 65% and by a fortnight was elevated to, and stabilized at, 70%-75%. After an evanescent increase, the femoral cellularity became slightly hypocellular but returned to normal by 3 days, thence becoming hypercellular from days 5 to 15. The spleen was markedly depleted of cells for 48 hr and recovered to hypercellular levels between 4 and 6 days. It then oscillated from hypercellular to normal levels with a period interval of 5 days. Both femoral and splenic CFU demonstrated oscillations, as did the estimations made on the state of CFU turnover. The femoral and splenic CFU did not decrease in number during the 15 days of hypoxia, indeed, they both revealed cyclic increases. These results are discussed in terms of CFU kinetics and humoral mediation.

scholarly journals CFU-S11 activity does not localize solely with the aorta in the aorta-gonad-mesonephros region

Blood ◽  
2000 ◽  
Vol 96 (8) ◽  
pp. 2902-2904 ◽  
Author(s):  
Marella F. T. R. de Bruijn ◽  
Marian C. E. Peeters ◽  
Tanya Luteijn ◽  
Pim Visser ◽  
Nancy A. Speck ◽  
...  
Keyword(s):  
Stem Cell ◽  
Hematopoietic Stem Cell ◽  
Fold Increase ◽  
Hematopoietic Stem ◽  
Umbilical Vessels ◽  
Colony Forming Units ◽  
Explant Cultures

Abstract The aorta-gonad-mesonephros (AGM) region is a potent hematopoietic site in the midgestation mouse conceptus and first contains colony-forming units–spleen day 11 (CFU-S11) at embryonic day 10 (E10). Because CFU-S11 activity is present in the AGM region before the onset of hematopoietic stem cell (HSC) activity, CFU-S11 activity in the complex developing vascular and urogenital regions of the AGM was localized. From E10 onward, CFU-S11 activity is associated with the aortic vasculature, and is found also in the urogenital ridges (UGRs). Together with data obtained from organ explant cultures, in which up to a 16-fold increase in CFU-S11 activity was observed, it was determined that CFU-S11 can be increased autonomously both in vascular sites and in UGRs. Furthermore, CFU-S11 activity is present in vitelline and umbilical vessels. This, together with the presence of CFU-S11 in the UGRs 2 days before HSC activity, suggests both temporally and spatially distinct emergent sources of CFU-S11.

scholarly journals Long-term monoclonal reconstitution of erythropoiesis in genetically anemic W/Wv mice by injection of 5-fluorouracil-treated bone marrow cells of Pgk-1b/Pgk-1a mice

Blood ◽  
1987 ◽  
Vol 70 (6) ◽  
pp. 1758-1763 ◽  
Author(s):  
T Nakano ◽  
N Waki ◽  
H Asai ◽  
Y Kitamura
Keyword(s):  
Stem Cells ◽  
Bone Marrow ◽  
Stem Cell ◽  
Bone Marrow Cells ◽  
Electrophoretic Pattern ◽  
Phosphoglycerate Kinase ◽  
X Chromosomes ◽  
Hematopoietic Stem ◽  
Colony Forming Units ◽  
Marrow Cells

Abstract The spleen colony-forming assay does not represent the number of hematopoietic stem cells with extensive self-maintaining capacity because five to 50 spleen colony-forming units (CFU-S) are necessary to rescue a genetically anemic (WB X C57BL/6)F1-W/Wv(WBB6F1-W/Wv) mouse. We investigated which is more important for the reconstitution of erythropoiesis, the transplantation of multiple CFU-S or that of a single stem cell with extensive self-maintaining potential. The electrophoretic pattern of hemoglobin was used as a marker of reconstitution and that of phosphoglycerate kinase (PGK), an X chromosome-linked enzyme, as a tool for estimating the number of stem cells. For this purpose, we developed the C57BL/6 congeneic strain with the Pgk-1a gene. Bone marrow cells were harvested after injection of 5- fluorouracil from C57BL/6-Pgk-1b/Pgk-1a female mice in which each stem cell had either A-type PGK or B-type PGK due to the random inactivation of one or two X chromosomes. When a relatively small number of bone marrow cells (ie, 10(3) or 3 X 10(3] were injected into 200-rad- irradiated WBB6F1-W/Wv mice, the hemoglobin pattern changed from the recipient type (Hbbd/Hbbs) to the donor type (Hbbs/Hbbs) in seven of 150 mice for at least 8 weeks. Erythrocytes of all these WBB6F1-W/Wv mice showed either A-type PGK alone or B-type PGK alone during the time of reconstitution, which suggests that a single stem cell with extensive self-maintaining potential may sustain the whole erythropoiesis of a mouse for at least 8 weeks.

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