OBJECTIVES: We investigated the in vitro phenotypic susceptibility of HIV-2 isolates from integrase inhibitor (INI)-naive patients to INIs and its relation to HIV-2 integrase gene polymorphism. METHODS: We determined the phenotypic susceptibility to raltegravir and elvitegravir of co-cultured isolates obtained from the HIV-2 ROD reference strain and from 14 clinical isolates. IC(50) values were compared with those for HIV-1 reference strains. HIV-2 integrase gene polymorphism was assessed in isolates from 52 INI-naive patients enrolled in the French HIV-2 cohort. RESULTS: Median raltegravir and elvitegravir IC(50) values for the 14 clinical HIV-2 isolates were 2.4 and 0.7 nM, respectively, and were similar to those observed for HIV-2 ROD and HIV-1 reference strains. Overall, 38% of HIV-2 integrase amino acids were polymorphic. The catalytic triad DDE and the HHCC and RKK motifs were fully conserved, at the same genomic positions as described in HIV-1. In subtype B isolates, the total length of the integrase gene varied, owing to the presence of stop codons at positions 288, 294, 297 and 302. Fourteen of the positions associated with substitutions conferring INI resistance in HIV-1 were polymorphic in HIV-2. CONCLUSIONS: Despite 40% heterogeneity between the HIV-1 and HIV-2 integrase genes, the phenotypic susceptibility of clinical HIV-2 isolates to INIs was similar to that of HIV-1. This new class of antiretroviral drugs thus represents a novel therapeutic possibility for HIV-2-infected patients who otherwise have few treatment options.
OBJECTIVES: We investigated the in vitro phenotypic susceptibility of HIV-2 isolates from integrase inhibitor (INI)-naive patients to INIs and its relation to HIV-2 integrase gene polymorphism. METHODS: We determined the phenotypic susceptibility to raltegravir and elvitegravir of co-cultured isolates obtained from the HIV-2 ROD reference strain and from 14 clinical isolates. IC(50) values were compared with those for HIV-1 reference strains. HIV-2 integrase gene polymorphism was assessed in isolates from 52 INI-naive patients enrolled in the French HIV-2 cohort. RESULTS: Median raltegravir and elvitegravir IC(50) values for the 14 clinical HIV-2 isolates were 2.4 and 0.7 nM, respectively, and were similar to those observed for HIV-2 ROD and HIV-1 reference strains. Overall, 38% of HIV-2 integrase amino acids were polymorphic. The catalytic triad DDE and the HHCC and RKK motifs were fully conserved, at the same genomic positions as described in HIV-1. In subtype B isolates, the total length of the integrase gene varied, owing to the presence of stop codons at positions 288, 294, 297 and 302. Fourteen of the positions associated with substitutions conferring INI resistance in HIV-1 were polymorphic in HIV-2. CONCLUSIONS: Despite 40% heterogeneity between the HIV-1 and HIV-2 integrase genes, the phenotypic susceptibility of clinical HIV-2 isolates to INIs was similar to that of HIV-1. This new class of antiretroviral drugs thus represents a novel therapeutic possibility for HIV-2-infectedpatients who otherwise have few treatment options.
Authors: Robert A Smith; Dana N Raugi; Vincent H Wu; Christopher G Zavala; Jennifer Song; Khardiata Mbaye Diallo; Moussa Seydi; Geoffrey S Gottlieb Journal: Antimicrob Agents Chemother Date: 2019-04-25 Impact factor: 5.191
Authors: Michel L Ntemgwa; Thomas d'Aquin Toni; Bluma G Brenner; Ricardo J Camacho; Mark A Wainberg Journal: Antimicrob Agents Chemother Date: 2009-05-26 Impact factor: 5.191
Authors: Mark G Lewis; Sandro Norelli; Matt Collins; Maria Letizia Barreca; Nunzio Iraci; Barbara Chirullo; Jake Yalley-Ogunro; Jack Greenhouse; Fausto Titti; Enrico Garaci; Andrea Savarino Journal: Retrovirology Date: 2010-03-16 Impact factor: 4.602