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Active site remodeling in IDH1 mutants drives distinct kinetic and potential resistance mechanisms.

Matthew MealkaNicole A SierraDiego Avellaneda MatteoElene AlbekioniRachel KhouryTimothy MaiBrittany M ConleyNalani J ColemanKaitlyn A SaboElizabeth A KomivesAndrey A BobkovAndrew L CooksySteve SillettiJamie M SchifferTom HuxfordChristal D Sohl
Published in: bioRxiv : the preprint server for biology (2024)
Mutations in human isocitrate dehydrogenase 1 (IDH1) drive tumor formation in a variety of cancers by replacing its conventional activity with a neomorphic activity that generates an oncometabolite. Little is understood of the mechanistic differences among tumor-driving IDH1 mutants. We previously reported that the R132Q mutant uniquely preserves conventional activity while catalyzing robust oncometabolite production, allowing an opportunity to compare these reaction mechanisms within a single active site. Here, we employed static and dynamic structural methods and found that, compared to R132H, the R132Q active site adopted a conformation primed for catalysis with optimized substrate binding and hydride transfer to drive improved conventional and neomorphic activity over R132H. This active site remodeling revealed a possible mechanism of resistance to selective mutant IDH1 therapeutic inhibitors. This work enhances our understanding of fundamental IDH1 mechanisms while pinpointing regions for improving inhibitor selectivity.
Keyphrases
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