MicroRNAs (miRNAs) have been shown to influence erythroid lineage commitment and differentiation; however, our knowledge of miRNA function in terminal erythropoiesis remains limited. To address this issue, we generated a novel animal model, where the miRNA-processing enzyme, Dicer, is selectively inactivated in erythropoietin receptor positive erythroid cells beginning with CFU-e/proerythroblast cells. This results in significant depletion of all miRNAs from the proerythroblast stage onwards, with one exception, miR-451, which is processed by Ago2 in a Dicer-independent manner. We observed that mature Dicer-dependent miRNAs, like miR-451, are dispensable under steady-state conditions, but these mutants have an impaired response to stress erythropoiesis, as demonstrated by a delay in recovery from anemia. This defect was specific to later maturing erythroid cells, as progenitor numbers were unaffected. In addition to generating a novel mouse model to study miRNA function in late erythroid cells, we conclude that miRNAs (both Dicer-dependent and independent) act primarily to regulate the optimal response to stress among late erythroid cells.
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