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A novel class of inhibitors that disrupts the stability of integrin heterodimers identified by CRISPR-tiling-instructed genetic screens.

Nicole M MattsonAnthony K C ChanKazuya MiyashitaElizaveta MukhalevaWen-Han ChangLu YangNing MaYingyu WangSheela Pangeni PokharelMingli LiQiao LiuXiaobao XuRenee ChenPriyanka SinghLeisi ZhangZeinab ElsayedBryan ChenDenise KeenPatrick PirrotteSteven T RosenJianjun ChenMark A LaBargeJohn E ShivelyNagarajan VaidehiRussell C RockneMingye FengChun-Wei David Chen
Published in: Nature structural & molecular biology (2024)
The plasma membrane is enriched for receptors and signaling proteins that are accessible from the extracellular space for pharmacological intervention. Here we conducted a series of CRISPR screens using human cell surface proteome and integrin family libraries in multiple cancer models. Our results identified ITGAV (integrin αV) and its heterodimer partner ITGB5 (integrin β5) as the essential integrin α/β pair for cancer cell expansion. High-density CRISPR gene tiling further pinpointed the integral pocket within the β-propeller domain of ITGAV for integrin αVβ5 dimerization. Combined with in silico compound docking, we developed a CRISPR-Tiling-Instructed Computer-Aided (CRISPR-TICA) pipeline for drug discovery and identified Cpd_AV2 as a lead inhibitor targeting the β-propeller central pocket of ITGAV. Cpd_AV2 treatment led to rapid uncoupling of integrin αVβ5 and cellular apoptosis, providing a unique class of therapeutic action that eliminates the integrin signaling via heterodimer dissociation. We also foresee the CRISPR-TICA approach to be an accessible method for future drug discovery studies.
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