Point mutations in IMPDH2 which cause early-onset neurodevelopmental disorders disrupt enzyme regulation and filament structure

Abstract

AbstractInosine 5’ monophosphate dehydrogenase (IMPDH) is a critical regulatory enzyme in purine nucleotide biosynthesis that is inhibited by the downstream product GTP. Multiple point mutations in the human isoform IMPDH2 have recently been associated with dystonia and other neurodevelopmental disorders, but the effect of the mutations on enzyme function has not been described. Here, we report identification of two additional affected individuals with missense variants inIMPDH2and show that all of the disease-associated mutations disrupt GTP regulation. Cryo-EM structures of one IMPDH2 mutant suggest this regulatory defect arises from a shift in the conformational equilibrium toward a more active state. This structural and functional analysis provides insight into IMPDH2-associated disease mechanisms that point to potential therapeutic approaches and raises new questions about fundamental aspects of IMPDH regulation.Significance StatementPoint mutations in the human enzyme IMPDH2, a critical regulator of nucleotide biosynthesis, are linked to neurodevelopmental disorders, such as dystonia. Here, we report two additional IMPDH2 point mutants associated with similar disorders. We investigate the effects of each mutation on IMPDH2 structure and functionin vitroand find that all mutations are gain of function, preventing allosteric regulation of IMPDH2 activity. We report high resolution structures of one variant and present a structure-based hypothesis for its dysregulation. This work provides a biochemical basis for understanding diseases caused byIMPDH2mutation and lays a foundation for future therapeutic development.