Erythropoietin (Epo) has been used in the treatment of anemia resulting from numerous etiologies, including renal disease and cancer. However, its effects are controversial and the expression pattern of the Epo receptor (Epo-R) is debated. Using in vivo lineage tracing, we document that within the hematopoietic and mesenchymal lineage, expression of Epo-R is essentially restricted to erythroid lineage cells. As expected, adult mice treated with a clinically relevant dose of Epo had expanded erythropoiesis because of amplification of committed erythroid precursors. Surprisingly, we also found that Epo induced a rapid 26% loss of the trabecular bone volume and impaired Blymphopoiesis within the bone marrow microenvironment. Despite the loss of trabecular bone, hematopoietic stem cell populations were unaffected. Inhibition of the osteoclast activity with bisphosphonate therapy blocked the Epo-induced bone loss. Intriguingly, bisphosphonate treatment also reduced the magnitude of the erythroid response to Epo. These data demonstrate a previously unrecognized in vivo regulatory network coordinating erythropoiesis, B-lymphopoiesis, and skeletal homeostasis. Importantly, these findings may be relevant to the clinical application of Epo. (Blood. 2011; 117(21):5631-5642)
IntroductionAnemia can result from benign conditions, such as acute/chronic bleeding, dietary deficiency, renal disease or hemoglobinopathies, and malignant diseases, such as myelodysplastic syndrome. 1,2 In response, the body produces erythropoietin (Epo). 3 Epo acts via its receptor (Epo-R) to stimulate and support increased erythropoiesis. 4,5 It has been widely used clinically for treating anemia of numerous causes, including infection, inflammation, gastrointestinal diseases, and cancer. 2,6 However, the use of Epo in cancer treatment is controversial because of adverse effects on survival, which have been reported in some clinical trials. [7][8][9] Within the erythroid lineage, Epo is essential for the survival, proliferation, and differentiation of definitive progenitors. Whereas erythroid colony-forming-units (CFU-Es) are highly Epo-dependent, Epo is dispensable for later stages of erythroid development. 10 Lack of Epo signaling in the mouse results in reduced primitive erythropoiesis and death at approximately embryonic day 13 (E13) because of failure of definitive erythropoiesis. 11,12 Targeted disruption of Epo or its receptor Epo-R generates identical phenotypes, suggesting that there are no alternate physiologic ligands or receptors. 11 In addition to its erythropoietic activity, Epo has also been proposed to act as a tissue-protective factor in tissues, such as the heart, blood vessels, and brain. 13,14 However, the expression of Epo-R in nonerythroid tissues is contentious. Recently described antibody studies suggest that Epo-R is restricted to the erythroid lineage. [15][16][17][18] This raises several questions regarding the effects of Epo in nonhematopoietic cell types.We have treated wild-type mice with a clinically relevant dose of E...
