Activity-based probes and chemical proteomics reveal the potential of targeting HMGCS1 for cancer therapy

HMGCS1 is an underexplored target for inhibitor development compared to other MVP enzymes, despite its unique features, such as a ligandable cysteine. Chemical tools for HMGCS1 are currently limited, with Hymeglusin as the primary inhibitor, although its selectivity has not been fully validated. Here, we report the development of a suite of chemical probes that allow us to evaluate the selectivity, efficacy, and stability of Hymeglusin. Our biological study indicates that Hymeglusin induces proteome changes nearly identical to statins and that concurrently targeting HMGCS1 and HMGCR effectively inhibits the growth of statin-resistant cells and xenograft models without increasing the risk of side effects. Moreover, the proteolysis of HMGCS1 exhibits a more significant anti-proliferative effect than the inhibition. In this context, covalent inhibitors of HMGCS1 can be easily transformed into dual-functional degraders. Collectively, this study provides an extensive toolkit for HMGCS1 and outlines the biological implications of targeting HMGCS1.