Login / Signup

Accelerating drug discovery and repurposing by combining transcriptional signature connectivity with docking.

Alexander William ThormanJames ReigleSomchai ChutipongtanateJuechen YangBehrouz ShamsaeiMarcin PilarczykMehdi Fazel-NajafabadiRafal AdamczakMichal KourilSurbhi BhatnagarSarah A HummelWen NiuArdythe L MorrowMaria F Czyzyk-KrzeskaRobert E McCullumsmithWilliam L SeibelNicolas NassarYi ZhengDavid A HildemanMario MedvedovicAndrew B HerrJaroslaw Meller
Published in: Science advances (2024)
We present an in silico approach for drug discovery, dubbed connectivity enhanced structure activity relationship (ceSAR). Building on the landmark LINCS library of transcriptional signatures of drug-like molecules and gene knockdowns, ceSAR combines cheminformatic techniques with signature concordance analysis to connect small molecules and their targets and further assess their biophysical compatibility using molecular docking. Candidate compounds are first ranked in a target structure-independent manner, using chemical similarity to LINCS analogs that exhibit transcriptomic concordance with a target gene knockdown. Top candidates are subsequently rescored using docking simulations and machine learning-based consensus of the two approaches. Using extensive benchmarking, we show that ceSAR greatly reduces false-positive rates, while cutting run times by multiple orders of magnitude and further democratizing drug discovery pipelines. We further demonstrate the utility of ceSAR by identifying and experimentally validating inhibitors of BCL2A1, an important antiapoptotic target in melanoma and preterm birth-associated inflammation.
Keyphrases