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Covalent modulators and covalent degrader molecules have emerged as drug modalities with tremendous therapeutic potential. Toward realizing this potential, mass spectrometry-based chemoproteomic screens have generated proteome-wide maps of potential druggable cysteine residues. However, beyond these direct cysteine-target maps, the full scope of direct and indirect activities of these molecules on cellular processes and how such activities contribute to reported modes of action, such as degrader activity, remains to be fully understood. Using chemoproteomics, we identified a cysteine-reactive small molecule degrader of the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) nonstructural protein 14 (nsp14), which effects degradation through direct modification of cysteines in both nsp14 and in host protein disulfide isomerases. This degrader activity was further potentiated by generalized electrophile-induced global protein ubiquitylation, proteasome activation and widespread aggregation and depletion of host proteins, including the formation of stress granules. Collectively, we delineate the wide-ranging impacts of cysteine-reactive electrophilic compounds on cellular proteostasis processes.© 2024. The Author(s), under exclusive licence to Springer Nature America, Inc.

Citation

Ashley R Julio, Flowreen Shikwana, Cindy Truong, Nikolas R Burton, Emil R Dominguez, Alexandra C Turmon, Jian Cao, Keriann M Backus. Delineating cysteine-reactive compound modulation of cellular proteostasis processes. Nature chemical biology. 2024 Oct 24


PMID: 39448844

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