From in silico hit to long-acting late-stage preclinical candidate to combat HIV-1 infection

Shalley N. Kudalkar; Jagadish Beloor; Elias Quijano; Krasimir A. Spasov; Won‐Gil Lee; José A. Cisneros; W. Mark Saltzman; Priti Kumar; William L. Jorgensen; Karen S. Anderson

doi:10.1073/pnas.1717932115

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From in silico hit to long-acting late-stage preclinical candidate to combat HIV-1 infection

Proceedings of the National Academy of Sciences 115(4)

Article 2017 English

Authors

SK
Shalley N. Kudalkar
JB
Jagadish Beloor
EQ
Elias Quijano

Abstract

1 min read

Significance Nonnucleoside reverse transcriptase inhibitors (NNRTIs) are essential components of highly active antiretroviral therapy; however, concerns about poor pharmacological properties, dose restriction because of toxicity, and drug resistance have limited treatment options. Our computational and structure-guided design studies for lead optimization have transformed a 5 µM virtual screening hit into a class of NNRTIs with remarkable potency, safety, drug resistance profile, and pharmacological properties. We report a representative, compound I, with marked synergy with existing HIV-1 drugs and antiviral efficacy in HIV-1–infected humanized mice. A single dose of long-acting nanoformulation of compound I retains sustained levels and efficacy for ∼3 weeks, confirming potential as a late-stage preclinical candidate. Additionally, these properties of compound I suggest that it may be a promising candidate to evaluate for preexposure prophylaxis.

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