Author
Listed:
- Matthew Mealka
(San Diego State University)
- Nicole A. Sierra
(San Diego State University)
- Diego Avellaneda Matteo
(San Diego State University)
- Elene Albekioni
(San Diego State University)
- Rachel Khoury
(San Diego State University)
- Timothy Mai
(San Diego State University)
- Brittany M. Conley
(San Diego State University)
- Nalani J. Coleman
(San Diego State University)
- Kaitlyn A. Sabo
(San Diego State University)
- Elizabeth A. Komives
(University of California San Diego)
- Andrey A. Bobkov
(Sanford Burnham Prebys Medical Discovery Institute)
- Andrew L. Cooksy
(San Diego State University)
- Steve Silletti
(University of California San Diego)
- Jamie M. Schiffer
(Vividion Therapeutics)
- Tom Huxford
(San Diego State University)
- Christal D. Sohl
(San Diego State University)
Abstract
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 unusually preserves conventional activity while catalyzing robust oncometabolite production, allowing an opportunity to compare these reaction mechanisms within a single active site. Here, we employ static and dynamic structural methods and observe that, compared to R132H, the R132Q active site adopts 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 reveals 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.
Suggested Citation
Matthew Mealka & Nicole A. Sierra & Diego Avellaneda Matteo & Elene Albekioni & Rachel Khoury & Timothy Mai & Brittany M. Conley & Nalani J. Coleman & Kaitlyn A. Sabo & Elizabeth A. Komives & Andrey A, 2024.
"Active site remodeling in tumor-relevant IDH1 mutants drives distinct kinetic features and potential resistance mechanisms,"
Nature Communications, Nature, vol. 15(1), pages 1-16, December.
Handle:
RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-48277-2
DOI: 10.1038/s41467-024-48277-2
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