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Vitamin B5 and succinyl-CoA improve ineffective erythropoiesis in SF3B1 -mutated myelodysplasia.

Syed A MianCéline PhilippeEleni ManiatiPantelitsa ProtopapaTiffany BergotMarion PiganeauTravis NemkovDoriana Di BellaValle MoralesAndrew J FinchAngelo D'AlessandroKatiuscia BianchiJun WangPaolo GallipoliShahram KordastiAnne Sophie KubaschMichael CrossUwe PlatzbeckerDaniel H WisemanDominique BonnetDelphine G. BernardJohn G GribbenKevin Rouault-Pierre
Published in: Science translational medicine (2023)
Patients with myelodysplastic syndrome and ring sideroblasts (MDS-RS) present with symptomatic anemia due to ineffective erythropoiesis that impedes their quality of life and increases morbidity. More than 80% of patients with MDS-RS harbor splicing factor 3B subunit 1 (SF3B1) mutations, the founder aberration driving MDS-RS disease. Here, we report how mis-splicing of coenzyme A synthase ( COASY ), induced by mutations in SF3B1 , affects heme biosynthesis and erythropoiesis. Our data revealed that COASY was up-regulated during normal erythroid differentiation, and its silencing prevented the formation of erythroid colonies, impeded erythroid differentiation, and precluded heme accumulation. In patients with MDS-RS, loss of protein due to COASY mis-splicing led to depletion of both CoA and succinyl-CoA. Supplementation with COASY substrate (vitamin B5) rescued CoA and succinyl-CoA concentrations in SF3B1 mut cells and mended erythropoiesis differentiation defects in MDS-RS primary patient cells. Our findings reveal a key role of the COASY pathway in erythroid maturation and identify upstream and downstream metabolites of COASY as a potential treatment for anemia in patients with MDS-RS.
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