BACKGROUND: Hypersusceptibility to nonnucleoside reverse-transcriptase inhibitors (NNRTIs) was described in association with reverse-transcriptase (RT) mutations conferring resistance to nucleoside reverse-transcriptase inhibitors (NRTIs). We evaluated the effect of RT mutations associated with hypersusceptibility to NNRTIs on the response to efavirenz-based therapy. METHODS: We analyzed an observational database of patients for whom highly active antiretroviral therapy failed and who received genotypic resistance testing-guided therapy, either efavirenz or protease inhibitor (PI) based. Study end points were achievement of virus load <80 copies/mL, achievement of virus load <80 copies/mL without rebound to >500 copies/mL, and changes in CD4 cell counts. RESULTS: The baseline RT mutations M41L, M184V, L210W, and T215Y and the M41L/T215Y and M41L/T215Y/M184V combinations were associated with virological suppression for efavirenz-treated patients, whereas, for PI-treated patients, only the M184V mutation was associated with virological suppression, and the L210W mutation showed a negative correlation; no correlation was found between any mutation and virological response without rebound. CONCLUSIONS: The M41L, M184V, L210W, and T215Y mutations were associated with a better, although transient, virological outcome in patients treated with efavirenz-based regimens.
BACKGROUND: Hypersusceptibility to nonnucleoside reverse-transcriptase inhibitors (NNRTIs) was described in association with reverse-transcriptase (RT) mutations conferring resistance to nucleoside reverse-transcriptase inhibitors (NRTIs). We evaluated the effect of RT mutations associated with hypersusceptibility to NNRTIs on the response to efavirenz-based therapy. METHODS: We analyzed an observational database of patients for whom highly active antiretroviral therapy failed and who received genotypic resistance testing-guided therapy, either efavirenz or protease inhibitor (PI) based. Study end points were achievement of virus load <80 copies/mL, achievement of virus load <80 copies/mL without rebound to >500 copies/mL, and changes in CD4 cell counts. RESULTS: The baseline RT mutations M41L, M184V, L210W, and T215Y and the M41L/T215Y and M41L/T215Y/M184V combinations were associated with virological suppression for efavirenz-treated patients, whereas, for PI-treated patients, only the M184V mutation was associated with virological suppression, and the L210W mutation showed a negative correlation; no correlation was found between any mutation and virological response without rebound. CONCLUSIONS: The M41L, M184V, L210W, and T215Y mutations were associated with a better, although transient, virological outcome in patients treated with efavirenz-based regimens.
Authors: Victoria A Johnson; Vincent Calvez; Huldrych F Günthard; Roger Paredes; Deenan Pillay; Robert Shafer; Annemarie M Wensing; Douglas D Richman Journal: Top Antivir Med Date: 2011-11
Authors: André F A Santos; Denis M Tebit; Matthew S Lalonde; Ana B Abecasis; Annette Ratcliff; Ricardo J Camacho; Ricardo S Diaz; Ottmar Herchenröder; Marcelo A Soares; Eric J Arts Journal: Antimicrob Agents Chemother Date: 2012-02-13 Impact factor: 5.191
Authors: Annemarie M Wensing; Vincent Calvez; Francesca Ceccherini-Silberstein; Charlotte Charpentier; Huldrych F Günthard; Roger Paredes; Robert W Shafer; Douglas D Richman Journal: Top Antivir Med Date: 2019-09
Authors: Javier Martinez-Picado; Terri Wrin; Simon D W Frost; Bonaventura Clotet; Lidia Ruiz; Andrew J Leigh Brown; Christos J Petropoulos; Neil T Parkin Journal: J Virol Date: 2005-05 Impact factor: 5.103
Authors: Lisa M Demeter; Victor DeGruttola; Stephanie Lustgarten; Daniel Bettendorf; Margaret Fischl; Susan Eshleman; William Spreen; Bach-Yen Nguyen; Christine E Koval; Joseph J Eron; Scott Hammer; Kathleen Squires Journal: HIV Clin Trials Date: 2008 Jan-Feb