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Discovering Targets of Non-enzymatic Acylation by Thioester Reactivity Profiling.

Cell chemical biology (2017-02-07)
Rhushikesh A Kulkarni, Andrew J Worth, Thomas T Zengeya, Jonathan H Shrimp, Julie M Garlick, Allison M Roberts, David C Montgomery, Carole Sourbier, Benjamin K Gibbs, Clementina Mesaros, Yien Che Tsai, Sudipto Das, King C Chan, Ming Zhou, Thorkell Andresson, Allan M Weissman, W Marston Linehan, Ian A Blair, Nathaniel W Snyder, Jordan L Meier
RÉSUMÉ

Non-enzymatic protein modification driven by thioester reactivity is thought to play a major role in the establishment of cellular lysine acylation. However, the specific protein targets of this process are largely unknown. Here we report an experimental strategy to investigate non-enzymatic acylation in cells. Specifically, we develop a chemoproteomic method that separates thioester reactivity from enzymatic utilization, allowing selective enrichment of non-enzymatic acylation targets. Applying this method to cancer cell lines identifies numerous candidate targets of non-enzymatic acylation, including several enzymes in lower glycolysis. Functional studies highlight malonyl-CoA as a reactive thioester metabolite that can modify and inhibit glycolytic enzyme activity. Finally, we show that synthetic thioesters can be used as novel reagents to probe non-enzymatic acylation in living cells. Our studies provide new insights into the targets and drivers of non-enzymatic acylation, and demonstrate the utility of reactivity-based methods to experimentally investigate this phenomenon in biology and disease.

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Glutaryl coenzyme A lithium salt, ≥90%