literature

HIV mutation literature information.

Effects of raltegravir or elvitegravir resistance signature mutations on the barrier to dolutegravir resistance in vitro.

PMID: 25691633 2015 Antimicrobial agents and chemotherapy

Abstract: In the E92Q, Y143C, Y143R, and N155H mutants, no secondary substitutions were associated with DTG.

Abstract: One explanation for this high barrier to resistance is that no additional secondary substitution of E92Q, Y143C, Y143R, or N155H simultaneously increased the fold change in 50% effective concentration (EC50) to DTG and infectivity.

Abstract: We conducted an in vitro resistance selection study using wild-type HIV-1 and mutants with the E92Q, Y143C, Y143R, Q148H, Q148K, Q148R, and

Cross-resistance to elvitegravir and dolutegravir in 502 patients failing on raltegravir: a French national study of raltegravir-experienced HIV-1-infected patients.

PMID: 25558077 2015 The Journal of antimicrobial chemotherapy

Abstract: The most frequent mutations observed were N155H/S (19.1%), Q148G/H/K/R (15.4%) and Y143C/G/H/R/S (6.7%).

Lack of resistance to integrase inhibitors among antiretroviral-naive subjects with primary HIV-1 infection, 2007-2013.

PMID: 24831260 2015 Antiviral therapy

4Method: Sequences were assembled with Sequencher (version 4.9; Gene Codes Corp, Ann Arbor, Ml) and submitted to the Stanford University HIV Drug Resistance Database (version 6.3.0; http://hivdb.stanford.edu on August 21, 2013) to identify ""major"" INSTI mutations (T66I, E92Q, G140S, Y143C/H/R, S147G, Abstract: Consensus sequencing identified no subjects with major INSTI mutations (T66I, E92Q, G140S, Y143C/H/R, S147G, Q148H/K/R, N155H).

HIV-1 group O integrase displays lower susceptibility to raltegravir and has a different mutational pathway for resistance than HIV-1 group M.

PMID: 25397483 2014 Journal of the International AIDS Society

Abstract: None of the HIV-O viruses selected either N155H or Y143C.

2014 Update of the drug resistance mutations in HIV-1.

PMID: 25101529 2014 Topics in antiviral medicine

Discussion: Raltegravir failure is associated with integrase mutations in at least 3 distinct, but not exclusive, genetic pathways defined by 2 or more mutations including (1) a signature (major) mutation at Q148H/K/R, N155H, or Y143R/H/C; and (2) 1 or more additional minor mutations.

Discussion: The Y143R/H/C mutation is uncommon.

Comparative replication capacity of raltegravir-resistant strains and antiviral activity of the new-generation integrase inhibitor dolutegravir in human primary macrophages and lymphocytes.

PMID: 24860155 2014 The Journal of antimicrobial chemotherapy

Abstract: In C8166 (the only cell model in which replication capacity was sufficient to perform the test) dolutegravir showed full efficacy against mutations N155H + Y143C (dolutegravir fold-change resistance: 0.6) and a slightly lower activity against G140S+Q148H (dolutegravir fold-change resistance: 2.1).

Abstract: In MDMs and PBMCs, a dramatic decrease in viral replication was observed for the double mutants N155H + Y143C and G140S +

Abstract: In all cellular models analysed, dolutegravir showed full efficacy against N155H and Y143C mutants (dolutegravir fold-change resistance ranging from 0.1 to 1.4; raltegravir fold-change resistance ranging from 0.1 to 10.3).

HIV-2 integrase polymorphisms and longitudinal genotypic analysis of HIV-2 infected patients failing a raltegravir-containing regimen.

PMID: 24681625 2014 PloS one

Introduction: On the other hand, the N155H-Y143C and N155H-Q148R replacements seem to define mutually exclusive pathways to RAL resistance in HIV-2.

Introduction: Overall, three major resistance pathways have been identified and shown to elicit high-level raltegravir and elvitegravir resistance in HIV-2: i) N155H/E92Q, ii) Q148R/G140S, and iii) Y143C/E92Q or Y143C/T97A.

Introduction: The specific amino acid changes that are known to confer RAL resistance in HIV-1 have also been shown to develop in RAL-treated HIV-2 patients: N155H

Comparison of illumina and 454 deep sequencing in participants failing raltegravir-based antiretroviral therapy.

PMID: 24603872 2014 PloS one

Method: Patients with more than one darunavir resistance-associated mutation or with known major integrase resistance-associated mutations (N155H, Q148H/R/K, Y143C/R, and G140S) were excluded from the study.

HIV-1-infected patients with advanced disease failing a raltegravir-containing salvage regimen in Sao Paulo, Brazil.

PMID: 24359837 2014 International journal of antimicrobial agents

Abstract: At failure, major RAL resistance mutations included Q148H/R/K (21/47; 45%), N155H (14/47; 30%), Y143R/H/C (3/47; 6%) and E92Q (1/47; 2%).

Resistance to HIV integrase strand transfer inhibitors among clinical specimens in the United States, 2009-2012.

PMID: 24145878 2014 Clinical infectious diseases

Abstract: Major integrase mutations included T66AIK, E92QV, F121Y, Y143CHR, S147G, Q148HKR, and N155H; multiple accessory mutations were also assessed.

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