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Cryo-EM structure determination of small therapeutic protein targets at 3 Å-resolution using a rigid imaging scaffold

Roger Castells‐Graells, Kyle Meador, Mark A. Arbing, M.R. Sawaya, Morgan Gee, Duilio Cascio, Emma S. Gleave, J.E. Debreczeni, J. Breed, Karoline Leopold, Ankoor Patel, Dushyant Jahagirdar, Bronwyn Lyons, Sriram Subramaniam, Chris Phillips, Todd O. Yeates

2023Proceedings of the National Academy of Sciences49 citationsDOIOpen Access PDF

Abstract

Cryoelectron microscopy (Cryo-EM) has enabled structural determination of proteins larger than about 50 kDa, including many intractable by any other method, but it has largely failed for smaller proteins. Here, we obtain structures of small proteins by binding them to a rigid molecular scaffold based on a designed protein cage, revealing atomic details at resolutions reaching 2.9 Å. We apply this system to the key cancer signaling protein KRAS (19 kDa in size), obtaining four structures of oncogenic mutational variants by cryo-EM. Importantly, a structure for the key G12C mutant bound to an inhibitor drug (AMG510) reveals significant conformational differences compared to prior data in the crystalline state. The findings highlight the promise of cryo-EM scaffolds for advancing the design of drug molecules against small therapeutic protein targets in cancer and other human diseases.

Topics & Concepts

Scaffold proteinDrug discoveryKRASScaffoldSmall moleculeComputational biologyHigh resolutionBiophysicsMutantStructural biologyProtein structureChemistryPlasma protein bindingMutationNanotechnologyBiologyMaterials scienceBiochemistrySignal transductionComputer scienceGeneRemote sensingGeologyDatabaseAdvanced Electron Microscopy Techniques and ApplicationsRNA and protein synthesis mechanismsATP Synthase and ATPases Research
Cryo-EM structure determination of small therapeutic protein targets at 3 Å-resolution using a rigid imaging scaffold | Litcius