Transcription factor Forkhead box P1 (FOXP1) belongs to the same protein family as the FOXOs that are well-known regulators of murine hematopoietic stem progenitor cell (HSPC) maintenance via dampening oxidative stress. FOXP1 and FOXOs can play opposite, or similar, roles depending on cell context; they can crossregulate each other's expression. In a previous study, we have shown that FOXP1 contributes to healthy human HSPC and acute myeloid leukemia (AML) cell growth. Here, we investigated the role of FOXP1 in HSPCs and AML cell oxidative stress defense in a human context. FOXP1 expression level was associated with an inferior survival outcome in patients with cytogenetically normal AML. FOXP1 knockdown enhanced superoxide anion levels of human-committed CD34+CD38+ cells but not stem cell-enriched CD34+CD38- HSPCs or AML cells in vitro. FOXP1 knockdown triggered enhanced NRF2 activity and increased cell oxidative stress. FOXP1 had no impact on FOXO1/3/4 expression in these cells; genetic and pharmacological inhibition of FOXOs did not change superoxide anion levels of human HSPCs or AML cells. Moreover, FOXP1 antioxidant activity was independent of changes in expression of superoxide dismutase 1 and 2 or catalase. Instead, FOXP1 upregulated expression of the stress sensor SIRT1 by stabilizing SIRT1 protein. FOXP1 loss sensitized AML cells to chemotherapy. Together, this study identified FOXP1 as a new safeguard against myeloid progenitor oxidative stress, which works independently of FOXOs but through SIRT1 and contributes to AML chemoresistance. It proposes FOXP1 expression/activity as a promising target to overcome drug resistance of AML HSPCs.
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