CACHE Challenge #1: Targeting the WDR Domain of LRRK2, A Parkinson’s Disease Associated Protein

LRRK2 帕金森病 疾病 隐藏物 计算机科学 医学 癌症研究 并行计算 内科学
作者
Fengling Li,Suzanne Ackloo,C.H. Arrowsmith,Fuqiang Ban,Christopher Barden,Hartmut Beck,Jan Beránek,Francois Berenger,Albina Bolotokova,Guillaume Bret,Marko Breznik,Emanuele Carosati,Irene Chau,Yu Chen,Artem Cherkasov,Dennis Della Corte,Katrin Denzinger,A. Dong,Sorin Draga,Ian Dunn
出处
期刊:Journal of Chemical Information and Modeling [American Chemical Society]
卷期号:64 (22): 8521-8536 被引量:16
标识
DOI:10.1021/acs.jcim.4c01267
摘要

The CACHE challenges are a series of prospective benchmarking exercises to evaluate progress in the field of computational hit-finding. Here we report the results of the inaugural CACHE challenge in which 23 computational teams each selected up to 100 commercially available compounds that they predicted would bind to the WDR domain of the Parkinson’s disease target LRRK2, a domain with no known ligand and only an apo structure in the PDB. The lack of known binding data and presumably low druggability of the target is a challenge to computational hit finding methods. Of the 1955 molecules predicted by participants in Round 1 of the challenge, 73 were found to bind to LRRK2 in an SPR assay with a KD lower than 150 μM. These 73 molecules were advanced to the Round 2 hit expansion phase, where computational teams each selected up to 50 analogs. Binding was observed in two orthogonal assays for seven chemically diverse series, with affinities ranging from 18 to 140 μM. The seven successful computational workflows varied in their screening strategies and techniques. Three used molecular dynamics to produce a conformational ensemble of the targeted site, three included a fragment docking step, three implemented a generative design strategy and five used one or more deep learning steps. CACHE #1 reflects a highly exploratory phase in computational drug design where participants adopted strikingly diverging screening strategies. Machine learning-accelerated methods achieved similar results to brute force (e.g., exhaustive) docking. First-in-class, experimentally confirmed compounds were rare and weakly potent, indicating that recent advances are not sufficient to effectively address challenging targets.
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