Murine hematopoietic stem cells (HSCs) transfected with gain-of-function human erythropoietin receptor (EPOR) transgene were reported to have a competitive advantage over wild type mouse HSCs in a bone marrow transplantation (BMT) model (

Kirby,
Blood
;
95
(12):
3710
,
2000
). However, EpoRs may not be normally expressed in early progenitor/stem cells, moreover, whether the Epo/EpoR signaling plays a role on homing and repopulating of hematopoietic progenitor/stem cells is also unknown. Our lab has previously created a mouse model harboring either a knocked-in human wild type (wthEPOR) hypomorphic gene or a mutant human gain-of-function EPOR (mthEPOR) gene into the mouse EPOR locus (
Divoky,
PNAS
;
98
(3):
986
,
2001
). The wthEPOR mice are anemic, while mthEpoR mice are polycythemic. We tested the possible advantage of mthEPOR HSCs in the competitive bone marrow (BM) transplantation assay using C57/Bl6 congenic mice. BM from wthEPOR (CD45.1/45.2 heterozygous or CD45.1) and mthEPOR (CD45.2) mice were co-transplanted (1:1 ratio) into lethally irradiated (137Cs >11Gy split) normal recipients (CD45.1 or CD45.1/45.2). Unexpectedly, in three independent groups the peripheral blood chimerism derived from wthEPOR-bearing cells significantly out-competed the mthEPOR-bearing cells two weeks after BMT (52% vs. 40%, 52% vs. 45% and 50% vs. 42%, n=11, 8 and 6, p<0.01). Furthermore, administration of exogenous Epo (10U/day/mouse) further impaired peripheral blood engraftment (including Ter119+ erythroid lineages) of mthEPOR cells (45% vs. 39%, n=8, p<0.05) though the relative proportion of erythroid cells within the engraftment was increased. Thus, an enhanced Epo/EpoR signaling interferes with the short-term repopulation of hematopoietic progenitors resulting in a decreased engraftment, possibly by interfering with homing. A possible long-term advantage of mthEPOR HSCs is being evaluated in ongoing studies; however, these short term data suggest that Epo administration to BM transplant patients may impede engraftment.

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Topics:
anemia, bone marrow transplantation, cd45 antigens, chimerism, erythropoietin, erythropoietin receptors, signal transduction, transplantation, mice, stem cells

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2005, The American Society of Hematology
2005
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