The JAK2V617F mutation is present in the majority of polycythemia vera patients and half of those with essential thrombocythemia and primary myelofibrosis. JAK2V617F is a gain-of-function mutation resulting in constitutive JAK2 signalling involved in the pathogenesis of these diseases. JAK2V617F has been shown to promote S phase entry. Here, we demonstrate that the CDC25A phosphatase, a key regulator of the G1/S cell cycle transition, is constitutively over-expressed in JAK2V617F-positive cell lines, JAK2-mutated patient CD36+ progenitors, and in vitro differentiated proerythroblasts. Accordingly, CDC25A is over-expressed in bone marrow and spleen of Jak2V617F knock-in mice compared to wild-type littermates. Using murine FDC-P1-EPOR and human HEL and SET-2 cell lines, we found that JAK2V617F-induced CDC25A up-regulation was caused neither by increased CDC25A transcription or stability, nor by the involvement of its upstream regulators Akt and MAPK. Instead, our results suggest that CDC25A is regulated at the translational level through STAT5 and the translational initiation factor eIF2α CDC25A inhibition reduces the clonogenic and proliferative potential of JAK2V617F-expressing cell lines and erythroid progenitors, while moderately affecting normal erythroid differentiation. These results suggest that CDC25A deregulation may be involved in hematopoietic cells expansion in JAK2V617F patients making of this protein an attracting potential therapeutic target. [ABSTRACT FROM AUTHOR]