Potent Inhibitors Active against HIV Reverse Transcriptase with K101P, a Mutation Conferring Rilpivirine Resistance

William T. Gray; Kathleen M. Frey; Sarah B. Laskey; Andrea C. Mislak; Krasimir A. Spasov; Won-Gil Lee; Mariela Bollini; Robert F. Siliciano; William L. Jorgensen; Karen S. Anderson

doi:10.1021/acsmedchemlett.5b00254

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Potent Inhibitors Active against HIV Reverse Transcriptase with K101P, a Mutation Conferring Rilpivirine Resistance

ACS Medicinal Chemistry Letters 6(10): 1075-1079

Article 2015 English

Authors

WG
William T. Gray
KF
Kathleen M. Frey
SL
Sarah B. Laskey

Abstract

1 min read

Catechol diether compounds have nanomolar antiviral and enzymatic activity against HIV with reverse transcriptase (RT) variants containing K101P, a mutation that confers high-level resistance to FDA-approved non-nucleoside inhibitors efavirenz and rilpivirine. Kinetic data suggests that RT (K101P) variants are as catalytically fit as wild-type and thus can potentially increase in the viral population as more antiviral regimens include efavirenz or rilpivirine. Comparison of wild-type structures and a new crystal structure of RT (K101P) in complex with a leading compound confirms that the K101P mutation is not a liability for the catechol diethers while suggesting that key interactions are lost with efavirenz and rilpivirine.

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