Therapy with pegylated interferon alpha (pegIFNα) can induce a deep molecular response in a subset of patients with myeloproliferative neoplasms (MPN). Here we investigated the role of Socs2, a negative regulator of cytokine signaling, in modulating the response to pegIFNα in a JAK2-V617F mouse model of MPN. Deleting Socs2 in JAK2-V617F mice resulted in increased sensitivity to cytokines, without causing significant alterations in the MPN phenotype. When subjected to pegIFNα, the loss of Socs2 enhanced the depletion of JAK2-mutant hematopoietic stem cells (HSCs), evidenced by reduced chimerism in peripheral blood and bone marrow compared to vehicle controls. Additionally, pegIFNα-treated Socs2-deficient JAK2-mutant HSCs exhibited functional impairments in secondary transplantations, reflecting long-term detrimental decline of their stemness. These findings demonstrate that loss of Socs2 enhances the effectiveness of pegIFNα in depleting the JAK2-mutant HSC clone. In line with the genetic ablation of Socs2, the SOCS2 inhibitor MN714 combined with IFNα exhibited better efficacy than IFNα alone in reducing the output of CD34+ cells from PV patients in vitro. Targeting SOCS2 could therefore improve therapeutic responsiveness in MPN patients receiving interferon therapy.
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