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Large library docking for cannabinoid-1 receptor agonists with reduced side effects.

Tia A TumminoChristos Illiopoulis-TsoutsouvasJoao M BrazEvan S O'BrienReed M SteinVeronica CraikNgan K TranSuthakar GanapathyFangyu LiuYuki ShiimuraFei TongThanh C HoDmytro S RadchenkoYurii S MorozSian Rodriguez RosadoKarnika BhardwajJorge BenitezYong-Feng LiuHerthana KandasamyClaire NormandMeriem SemacheLaurent SabbaghIsabella GlennJohn J IrwinKaavya Krishna KumarAlexandros MakriyannisAllan I BasbaumBrian K Shoichet
Published in: bioRxiv : the preprint server for biology (2024)
Large library docking can reveal unexpected chemotypes that complement the structures of biological targets. Seeking new agonists for the cannabinoid-1 receptor (CB1R), we docked 74 million tangible molecules, prioritizing 46 high ranking ones for de novo synthesis and testing. Nine were active by radioligand competition, a 20% hit-rate. Structure-based optimization of one of the most potent of these (Ki = 0.7 uM) led to '4042, a 1.9 nM ligand and a full CB1R agonist. A cryo-EM structure of the purified enantiomer of '4042 ('1350) in complex with CB1R-Gi1 confirmed its docked pose. The new agonist was strongly analgesic, with generally a 5-10-fold therapeutic window over sedation and catalepsy and no observable conditioned place preference. These findings suggest that new cannabinoid chemotypes may disentangle characteristic cannabinoid side-effects from their analgesia, supporting the further development of cannabinoids as pain therapeutics.
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