Characterization and structural analysis of novel mutations in human 
immunodeficiency virus type 1 reverse transcriptase involved in the regulation 
of restistance to nonnucleoside inhibitors

Ceccherini-Silberstein, Francesca; Svicher, Valentina; Sing, Tobias; Artese, Anna; Santoro, Maria Mercedes; Forbici, Federica; Bertoli, Ada; Alcaro, Stefano; Palamara, Guido; Monforte, Antonella d'Arminio; Balzarini, Jan; Antinori, Andrea; Lengauer, Thomas; Perno, Carlo Federico

doi:10.1128/JVI.00303-07

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Characterization and structural analysis of novel mutations in human immunodeficiency virus type 1 reverse transcriptase involved in the regulation of restistance to nonnucleoside inhibitors

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Sing, Tobias
Computational Biology and Applied Algorithmics, MPI for Informatics, Max Planck Society;

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Lengauer, Thomas
Computational Biology and Applied Algorithmics, MPI for Informatics, Max Planck Society;

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Citation

Ceccherini-Silberstein, F., Svicher, V., Sing, T., Artese, A., Santoro, M. M., Forbici, F., et al. (2007). Characterization and structural analysis of novel mutations in human immunodeficiency virus type 1 reverse transcriptase involved in the regulation of restistance to nonnucleoside inhibitors. Journal of Virology, 81(20), 11507-11519. doi:10.1128/JVI.00303-07.

Cite as: https://hdl.handle.net/11858/00-001M-0000-000F-1E81-E

Abstract

Resistance to antivirals is a complex and dynamic phenomenon that involves more mutations than are currently known. Here, we characterize 10 additional mutations (L74V, K101Q, I135M/T, V179I, H221Y, K223E/Q, and L228H/R) in human immunodeficiency virus type 1 (HIV-1) reverse transcriptase which are involved in the regulation of resistance to nonnucleoside reverse transcriptase inhibitors (NNRTIs). These mutations are strongly associated with NNRTI failure and strongly correlate with the classical NNRTI resistance mutations in a data set of 1,904 HIV-1 B-subtype pol sequences from 758 drug-naïve patients, 592 nucleoside reverse transcriptase inhibitor (NRTI)-treated but NNRTI-naïve patients, and 554 patients treated with both NRTIs and NNRTIs. In particular, L74V and H221Y, positively correlated with Y181C, were associated with an increase in Y181C-mediated resistance to nevirapine, while I135M/T mutations, positively correlated with K103N, were associated with an increase in K103N-mediated resistance to efavirenz. In addition, the presence of the I135T polymorphism in NNRTI-naïve patients significantly correlated with the appearance of K103N in cases of NNRTI failure, suggesting that I135T may represent a crucial determinant of NNRTI resistance evolution. Molecular dynamics simulations show that I135T can contribute to the stabilization of the K103N-induced closure of the NNRTI binding pocket by reducing the distance and increasing the number of hydrogen bonds between 103N and 188Y. H221Y also showed negative correlations with type 2 thymidine analogue mutations (TAM2s); its copresence with the TAM2s was associated with a higher level of zidovudine susceptibility. Our study reinforces the complexity of NNRTI resistance and the significant interplay between NRTI- and NNRTI-selected mutations. Mutations beyond those currently known to confer resistance should be considered for a better prediction of clinical response to reverse transcriptase inhibitors and for the development of more efficient new-generation NNRTIs.