AbstractErythropoiesis was suppressed in CDF1female mice using one of three different techniques: hypertransfusion, daily injections of low doses of actinomycin D, or post‐hypobaric polycythemia. Spleens and bone marrows of these mice contained increased numbers of stem cells as determined by transplantation into lethally irradiated syngeneic mice. These stem cells were capable of producing both erythrocytic and granulocytic progeny. An increase in the number of multipotential stem cells or increases in the numbers of both unipotential granulocytic and erythrocytic stem cells is compatible with these observations and implies that hematopoietic stem cells may have a basic rate of division that is in part independent of stimuli to differentiate. The implications of these findings for the possible modification of antineoplastic drug‐induced bone marrow toxicity are discus
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