Abstract
Ultrastructural studies of erythropoietin effects on the bone marrow of control and hypertransfused (65 hct) mice revealed a decrease in adventitial cell cover of the sinus apertures in erythropoietin-treated animals. A more striking finding, however, was the marked inhibition of erythropoietin-induced reticulocytosis by hypertransfusion itself. Hypertransfusion of the erythropoietin-treated animals appeared to decrease the reticulocyte response by inhibiting reticulocyte response by marrow cords in addition to inhibiting erythroid proliferation. This inhibition of reticulocyte response was associated with clustering of reticulocytes around the marrow sinuses which were packed with red cells. Acute lowering of the hematocrit of erythropoietin-treated, hypertransfused animals to normal at the time of maximal reticulocyte response in control animals resulted in more than a twofold increase in reticulocytosis with 2 hr. It is suggested that (1) elevated levels of erythropoietin are associated with a diminution of the normal marrow- peripheral blood barrier, thereby contributing to the premature release of marrow elements and (2) the hematocrit is an important determinant of cell release from the marrow into the peripheral circulation.