Mutations in the non-nucleoside binding-pocket interfere with the multi-nucleoside resistance phenotype

Kristel Van Laethem, Myriam Witvrouw, Christophe Pannecouque, Barbara Van Remoortel, Jean Claude Schmit, Robert Esnouf, Jörg Peter Kleim, Jan Balzarini, Jan Desmyter, Erik De Clercq, Anne Mieke Vandamme*

*Corresponding author for this work

Research output: Contribution to journalArticleResearchpeer-review

24 Citations (Scopus)


Objectives: To investigate the genotypic and phenotypic effects of in vitro resistance selection with lamivudine and/or the second generation non-nucleoside reverse transcriptase inhibitor (NNRTI) quinoxaline HBY097 using HIV-1 isolates carrying the multi-nucleoside resistance pattern linked to the Q151M mutation. Methods: Virus strains were selected in C8166 cells in the presence of increasing concentrations of lamivudine or HBY097. In parallel control experiments, the virus was cultured in C8166 cells in the absence of drugs. The entire reverse transcriptase encoding region was amplified using polymerase chain reaction and was subsequently sequenced. Antiviral activities of drugs were evaluated in C8166 cells. Results: High-level resistant viruses were selected rapidly in the presence of lamivudine and quinoxaline (less than 10 passages). The multi-nucleoside resistance mutations were stable during in vitro resistance selection. Lamivudine elicited the acquisition of the M1841 mutation. Phenotypic resistance to all nucleoside-analog reverse transcriptase inhibitors (NRTIs) was increased when M1841 was added to the multi-nucleoside resistance background in the absence of NNRTI-resistance mutations. In most cases of HBY097 resistance selection, at least two mutations associated with NNRTI resistance resulted in high-level NNRTI resistance. The NNRTI resistance-related mutations partially reversed the phenotypic resistance to most NRTIs, except to abacavir. The addition of the M1841 mutation to the NNRTI-multi-nucleoside resistance set abolished this antagonizing effect for didanosine, zalcitabine and lamivudine, but further potentiated the phenotypic reversal for zidovudine and stavudine. Conclusion: Changes in the non-nucleoside binding pocket must affect the conformation of residues at the dNTP binding site, and can result in a partial phenotypic reversal of the multi-nucleoside resistance phenotype.

Original languageEnglish
Pages (from-to)553-561
Number of pages9
Issue number5
Publication statusPublished - 30 Mar 2001
Externally publishedYes


  • Antiretroviral therapy
  • HIV resistance mutations
  • Multi-nucleoside resistance
  • Phenotypic reversal
  • Reverse transcriptase inhibitors


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