OBJECTIVES: BMS-626529 is a member of the new drug class of HIV-1 attachment inhibitors currently in development. Mutations selected during in vitro experiments with BMS-626529 are located in the gp120 region: L116P, A204D, M426L, M434I-V506M and M475I. A differential antiviral activity of BMS-626529 was observed depending of the viral subtype. The aim of our study was to assess the prevalence of subtype-related polymorphisms previously described as being associated with in vitro resistance to BMS-626529 in patients infected with different HIV-1 'non-B' subtypes. PATIENTS AND METHODS: The prevalence of substitutions in gp120 was assessed in 85 HIV-infected patients (not previously treated with attachment inhibitors and infected with HIV-1 'non-B' subtypes) by performing direct sequencing of the gp120 region. RESULTS: The most prevalent HIV-1 subtype was CRF02_AG (n = 46, 54%). The M426L substitution was found in virus from 10 patients (11.8%), mainly in subtypes D and CRF02_AG. The M434I substitution was found in virus from 11 patients (12.9%), mainly in subtypes CRF02_AG and CRF06_cpx. None of the CRF02_AG viruses harboured both M426L and M434I substitutions. CONCLUSIONS: In our series, the M426L substitution in the gp120 region was detected in 46% and 7% of subtype D and CRF02_AG samples, respectively, and might affect the activity of BMS-626529 against these specific subtypes. Further studies are needed to better describe associations between HIV-1 'non-B'-subtype-related polymorphism profiles and the level of phenotypic resistance to attachment inhibitor BMS-626529.
OBJECTIVES: BMS-626529 is a member of the new drug class of HIV-1 attachment inhibitors currently in development. Mutations selected during in vitro experiments with BMS-626529 are located in the gp120 region: L116P, A204D, M426L, M434I-V506M and M475I. A differential antiviral activity of BMS-626529 was observed depending of the viral subtype. The aim of our study was to assess the prevalence of subtype-related polymorphisms previously described as being associated with in vitro resistance to BMS-626529 in patients infected with different HIV-1 'non-B' subtypes. PATIENTS AND METHODS: The prevalence of substitutions in gp120 was assessed in 85 HIV-infectedpatients (not previously treated with attachment inhibitors and infected with HIV-1 'non-B' subtypes) by performing direct sequencing of the gp120 region. RESULTS: The most prevalent HIV-1 subtype was CRF02_AG (n = 46, 54%). The M426L substitution was found in virus from 10 patients (11.8%), mainly in subtypes D and CRF02_AG. The M434I substitution was found in virus from 11 patients (12.9%), mainly in subtypes CRF02_AG and CRF06_cpx. None of the CRF02_AG viruses harboured both M426L and M434I substitutions. CONCLUSIONS: In our series, the M426L substitution in the gp120 region was detected in 46% and 7% of subtype D and CRF02_AG samples, respectively, and might affect the activity of BMS-626529 against these specific subtypes. Further studies are needed to better describe associations between HIV-1 'non-B'-subtype-related polymorphism profiles and the level of phenotypic resistance to attachment inhibitor BMS-626529.
Authors: Susan M Schader; Susan P Colby-Germinario; Peter K Quashie; Maureen Oliveira; Ruxandra-Ilinca Ibanescu; Daniela Moisi; Thibault Mespléde; Mark A Wainberg Journal: Antimicrob Agents Chemother Date: 2012-05-21 Impact factor: 5.191
Authors: Marina Tuyishime; Matt Danish; Amy Princiotto; Marie K Mankowski; Rae Lawrence; Henry-Georges Lombart; Kirill Esikov; Joel Berniac; Kuang Liang; Jingjing Ji; Roger G Ptak; Navid Madani; Simon Cocklin Journal: Bioorg Med Chem Lett Date: 2014-12-01 Impact factor: 2.823