Dawn of non-nucleoside inhibitor-based anti-HIV microbicides

doi:10.1093/jac/dki464

JAC Advance Access originally published online on January 23, 2006
Journal of Antimicrobial Chemotherapy 2006 57(3):411-423; doi:10.1093/jac/dki464

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© The Author 2006. Published by Oxford University Press on behalf of the British Society for Antimicrobial Chemotherapy. All rights reserved. For Permissions, please e-mail: journals.permissions@oxfordjournals.org

Review

Dawn of non-nucleoside inhibitor-based anti-HIV microbicides

Osmond J. D'Cruz¹^,2^,* and Fatih M. Uckun¹^,2

¹ Drug Discovery Program, Parker Hughes Institute, 2657 Patton Road, St Paul, MN 55113, USA; ² Paradigm Pharmaceuticals, LLC, 2685 Patton Road, St Paul, MN 55113, USA

^* Corresponding author. Tel: +1-651-628-9988; Fax: +1-651-628-9891; E-mail: ODCRUZ{at}IH.ORG

The emergence of HIV/AIDS as a disease spread through sexualintercourse has prompted the search for safe and effective vaginaland rectal microbicides for curbing mucosal viral transmissionvia semen. Since endogenous reverse transcription is implicatedin augmenting the sexual transmission of HIV-1 infection, potentialmicrobicides should have the inherent ability to optimally inhibitboth wild-type and drug-escape mutants. The non-nucleoside reversetranscriptase inhibitors (NNRTIs), which bind to an allostericsite on RT, are an important arsenal of drugs against HIV-1.The clinical success of NNRTI-based HIV/AIDS therapies has ledto extensive structural and molecular modelling studies of enzymecomplexes and chemical synthesis of second- and third-generationNNRTIs. Rationally designed NNRTIs deduced from changes in bindingpocket size, shape and residue character that result from clinicallyobserved NNRTI resistance-associated mutations exhibit highbinding affinity for HIV-1 RT and robust anti-HIV activity againstthe wild-type and drug-escape mutants without cytotoxicity.Notably, membrane permeable tight binding NNRTIs have the abilityto inactivate cell-free as well as cell-associated HIV-1 insemen without metabolic activation. Consequently, NNRTIs currentlyunder development as experimental microbicides include thiourea-PETT(where PETT stands for phenethylthiazolylthiourea) derivatives(PHI-236, PHI-346 and PHI-443), urea-PETT derivatives (MIV-150),oxypyrimidines (S-DABOs), thiocarboxanilides (UC-781) and diarylpyrimidines(TMC-120). Mucoadhesive formulations of these NNRTIs have beenstudied for safety and efficacy in animal models and some haveentered Phase I safety testing in humans. This review focuseson the structural, biological and preclinical studies relevantto the clinical development of these NNRTIs as molecular virucidesintended to prevent the sexual transmission of HIV-1.

Keywords: AIDS/HIV , reverse transcriptase , non-nucleoside reverse transcriptase inhibitors , NNRTIs

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