CLYBL averts vitamin B₁₂ depletion by repairing malyl-CoA

Citrate lyase beta-like protein (CLYBL) is a ubiquitously expressed mammalian enzyme known for its role in the degradation of itaconate, a bactericidal immunometabolite produced in activated macrophages. The association of CLYBL loss of function with reduced circulating vitamin B₁₂ levels was proposed to result from inhibition of the B₁₂-dependent enzyme methylmalonyl-CoA mutase by itaconyl-CoA. The discrepancy between the highly inducible and locally confined production of itaconate and the broad expression profile of CLYBL across tissues suggested a role for this enzyme beyond itaconate catabolism. Here we discover that CLYBL additionally functions as a metabolite repair enzyme for malyl-CoA, a side product of promiscuous citric acid cycle enzymes. We found that CLYBL knockout cells, accumulating malyl-CoA but not itaconyl-CoA, show decreased levels of adenosylcobalamin and that malyl-CoA is a more potent inhibitor of methylmalonyl-CoA mutase than itaconyl-CoA. Our work thus suggests that malyl-CoA plays a role in the B₁₂ deficiency observed in individuals with CLYBL loss of function. (Figure presented.)