Abstract
In severe congenital neutropenia (SCN) patients and mice with Growth factor independent-1 (Gfi1) loss of function, arrested progenitors are suspended in a hyperproliferative state while terminal granulpoiesis is blocked. SCN patients are at increased risk for the development of acute myeloid leukemia. We demonstrate that Gfi1 directly targets HoxA9, Pbx1 and Meis1 during normal myelopoiesis. Gfi1−/− progenitors exhibit elevated levels of HoxA9, Pbx1 and Meis1, exaggerated HoxA9-Pbx1-Meis1 activity, and increased persistence in vivo and in vitro. Limiting HoxA9 alleles corrects, in a dose dependent manner, in vivo and in vitro phenotypes observed with loss of Gfi1. Moreover, in a manner conserved in Drosophila anterior/posterior patterning, we demonstrate that these factors can compete for occupancy of DNA sequences encoding composite Gfi1-HoxA9-Pbx1-Meis1 binding sites. Finally, the expression of Gfi1 and HoxA9 are inverse and stratify human myeloid leukemias, suggesting a role for HoxA9- Gfi1 antagonism in human AML. In agreement with this, a myeloproliferative disorder progresses into a rapid, lethal and transplantable myeloid leukemia in a Gfi1−/− setting. We conclude that the lifespan and oncogenic transformation of hematopoietic progenitor cells is regulated through a conserved competition between Gfi1 and HoxA9-Pbx1-Meis1.
Disclosures: No relevant conflicts of interest to declare.
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