Cobalt is a crucial trace element that widely exists in natural environments and is necessary for normal physiological function. However, excessive cobalt exposure leads to various adverse health effects, especially hematological and endocrine dysfunctions. Here, we investigated the toxicity of cobalt on early erythropoiesis by using ex vivo cultured erythroid progenitor cells (EPCs). We exposed EPCs to cobalt chloride (CoCl) and observed that their proliferation was significantly reduced after treatment with 50 μM CoCl for 3 days and 10 μM CoCl for 4 days. Furthermore, CoCl exposure reduced the proportion of S phase cells and induced apoptosis of EPCs in a dose-dependent manner (20-100 μM). Notably, further studies revealed that CoCl exposure inhibited the expression and phosphorylation of the erythroid proliferation master gene c-Kit. During EPC differentiation, treatment with CoCl hindered the enucleation of erythrocytes. Consistent with these findings, the RNA-seq results revealed that CoCl treatment inhibited the expression of several genes related to both proliferation and differentiation. The gene responsible for nucleoprotein export during enucleation, Xpo7, was also downregulated. Gene ontology analysis revealed that CoCl treatment inhibited a variety of biological processes, including DNA replication and ribosome synthesis. In summary, we demonstrated that sustained excessive CoCl exposure impaired the function of the EPCs.
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