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Rational Design, Synthesis, and Mechanism of (3,4)-3-Amino-4-(difluoromethyl)cyclopent-1-ene-1-carboxylic Acid: Employing a Second-Deprotonation Strategy for Selectivity of Human Ornithine Aminotransferase over GABA Aminotransferase. | LitMetric

AI Article Synopsis

  • Human ornithine aminotransferase (hOAT) is an important enzyme that could be targeted for treating liver cancer, and it shares similarities with another enzyme, GABA-AT.
  • The study explored how hOAT can be inactivated by known GABA-AT inhibitors, leading to the development of a new, selective hOAT inhibitor that works effectively.
  • Findings from various experiments revealed that this new inhibitor binds tightly to hOAT, showing a unique mechanism that contributes to its effectiveness and selectivity against hOAT compared to GABA-AT.

Article Abstract

Human ornithine aminotransferase (hOAT) is a pyridoxal 5'-phosphate (PLP)-dependent enzyme that contains a similar active site to that of γ-aminobutyric acid aminotransferase (GABA-AT). Recently, pharmacological inhibition of hOAT was recognized as a potential therapeutic approach for hepatocellular carcinoma. In this work, we first studied the inactivation mechanisms of hOAT by two well-known GABA-AT inactivators ( and ). Inspired by the inactivation mechanistic difference between these two aminotransferases, a series of analogues were designed and synthesized, leading to the discovery of analogue as a highly selective and potent hOAT inhibitor. Intact protein mass spectrometry, protein crystallography, and dialysis experiments indicated that was converted to an irreversible tight-binding adduct () in the active site of hOAT, as was the unsaturated analogue (). The comparison of kinetic studies between and suggested that the active intermediate () was only generated in hOAT and not in GABA-AT. Molecular docking studies and p computational calculations highlighted the importance of chirality and the endocyclic double bond for inhibitory activity. The turnover mechanism of was supported by mass spectrometric analysis of dissociable products and fluoride ion release experiments. Notably, the stopped-flow experiments were highly consistent with the proposed mechanism, suggesting a relatively slow hydrolysis rate for hOAT. The novel second-deprotonation mechanism of contributes to its high potency and significantly enhanced selectivity for hOAT inhibition.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9181902PMC
http://dx.doi.org/10.1021/jacs.2c00924DOI Listing

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