Taylor B. Collins, Angelo B.A. Laranjeira, Tim Kong, Mary C. Fulbright, Daniel A.C. Fisher, Christopher M. Sturgeon, Luis F.Z. Batista, and Stephen T. Oh
Abstract
Myeloproliferative neoplasms (MPN) are driven by hyperactivation of JAK-STAT signaling but can demonstrate skewed hematopoiesis upon acquisition of additional somatic mutations. Here, using primary MPN samples and engineered embryonic stem cells, we demonstrate that mutations in JAK2 induce a significant increase in erythroid colony formation, whereas mutations in additional sex combs-like 1 (ASXL1) led to erythroid colony defect. RNA-sequencing revealed upregulation of protein arginine methyltransferase 6 (PRMT6) induced by mutant ASXL1. Furthermore, genetic perturbation of PRMT6 exacerbated MPN disease burden including leukemic engraftment and splenomegaly in patient-derived xenograft models, highlighting a novel tumor-suppressive function of PRMT6. However, augmented erythroid potential and bone marrow human CD71+ cells following PRMT6 knockdown were reserved only to primary MPN samples harboring ASXL1 mutations. Lastly, treatment of CD34+ hematopoietic/stem progenitor cells with PRMT6 inhibitor, EPZ020411 induced expression of genes involved in heme metabolism, hemoglobin, and erythropoiesis. These findings highlight interactions between JAK2 and ASXL1 mutations and a unique erythroid regulatory network in the context of mutant ASXL1.