Computational fragment-based drug design of potential Glo-I inhibitors Article Swipe

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Drug Chemistry Fragment (logic) Lead compound Combinatorial chemistry Ligand efficiency Stereochemistry Computational biology Enzyme Drug discovery Quantitative structure–activity relationship Ligand (biochemistry) Pharmacology In vitro Biochemistry Computer science Biology Receptor Algorithm

Roaa S. Bibars , Qosay Al‐Balas ·

YOU? · · 2024 · Open Access · · DOI: https://doi.org/10.1080/14756366.2024.2301758 · OA: W4391109477

In this study, a fragment-based drug design approach, particularly de novo drug design, was implemented utilising three different crystal structures in order to discover new privileged scaffolds against glyoxalase-I enzyme as anticancer agents. The fragments were evoluted to indicate potential inhibitors with high receptor affinities. The resulting compounds were served as a benchmark for choosing similar compounds from the ASINEX® database by applying different computational ligand-based drug design techniques. Afterwards, the selection of potential hits was further aided by various structure-based approaches. Then, 14 compounds were purchased, and tested in vitro against Glo-I enzyme. Of the tested 14 hits, the biological screening results showed humble activities where the percentage of Glo-I inhibition ranged from 0-18.70 %. Compound 19 and compound 28, whose percentage of inhibitions are 18.70 and 15.80%, respectively, can be considered as hits that need further optimisation in order to be converted into lead-like compounds.