Computationally-Guided Optimization of a Docking Hit to Yield Catechol Diethers as Potent Anti-HIV Agents

Mariela Bollini; Robert A. Domaoal; Vinay V. Thakur; Ricardo Gallardo‐Macias; Krasimir A. Spasov; Karen S. Anderson; William L. Jorgensen

doi:10.1021/jm201134m

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Computationally-Guided Optimization of a Docking Hit to Yield Catechol Diethers as Potent Anti-HIV Agents

Journal of Medicinal Chemistry 54(24): 8582-8591

Article 2011 English

Authors

MB
Mariela Bollini
RD
Robert A. Domaoal
VT
Vinay V. Thakur

Abstract

1 min read

A 5-μM docking hit has been optimized to an extraordinarily potent (55 pM) non-nucleoside inhibitor of HIV reverse transcriptase. Use of free energy perturbation (FEP) calculations to predict relative free energies of binding aided the optimizations by identifying optimal substitution patterns for phenyl rings and a linker. The most potent resultant catechol diethers feature terminal uracil and cyanovinylphenyl groups. A halogen bond with Pro95 likely contributes to the extreme potency of compound 42. In addition, several examples are provided illustrating failures of attempted grafting of a substructure from a very active compound onto a seemingly related scaffold to improve its activity.

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