Persistence of Transmitted HIV-1 Drug Resistance Mutations Associated with Fitness Costs and Viral Genetic Backgrounds

Yang, Wan-Lin; Kouyos, Roger D.; Böni, Jürg; Yerly, Sabine; Klimkait, Thomas; Aubert, Vincent; Scherrer, Alexandra U.; Shilaih, Mohaned; Hinkley, Trevor; Petropoulos, Christos J.; Bonhoeffer, Sebastian; Günthard, Huldrych F.

doi:10.1371/journal.ppat.1004722

Cited by 73 publications

(80 citation statements)

References 33 publications

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“…Fitness-driven selection may result in the disappearance of a resistant variant that initially caused the infection to levels below the limit of detection of population sequencing (6)(7)(8)(9)(10)(11). Because of that, the choice of a first-line treatment regimen in patients with some indications of resistance is often based on a worst-case scenario, whereby the presence of additional mutations is presumed.…”

Section: Discussionmentioning

confidence: 99%

“…Resistant viruses that initially caused the infection may be overgrown, with time and in the absence of drugs, by fitter variants that lack all or part of the resistance mutations as a result of back mutation (6)(7)(8)(9)(10)(11). The highest rates of disappearance have been recorded for the NRTI mutation M184V/I (11)(12)(13) and for the thymidine analogue-associated mutations K70R and T215Y (11).…”

mentioning

confidence: 99%

“…The highest rates of disappearance have been recorded for the NRTI mutation M184V/I (11)(12)(13) and for the thymidine analogue-associated mutations K70R and T215Y (11). Back mutation may result in replacement of the resistance mutation with the original wild-type amino acid or in the introduction of an alternative amino acid.…”

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confidence: 99%

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Deep Sequencing of HIV-1 RNA and DNA in Newly Diagnosed Patients with Baseline Drug Resistance Showed No Indications for Hidden Resistance and Is Biased by Strong Interference of Hypermutation

et al. 2016

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Deep sequencing of plasma RNA or proviral DNA may be an interesting alternative to population sequencing for the detection of baseline transmitted HIV-1 drug resistance. Using a Roche 454 GS Junior HIV-1 prototype kit, we performed deep sequencing of the HIV-1 protease and reverse transcriptase genes on paired plasma and buffy coat samples from newly diagnosed HIV-1-positive individuals. Selection was based on the outcome of population sequencing and included 12 patients with either a revertant amino acid at codon 215 of the reverse transcriptase or a singleton resistance mutation, 4 patients with multiple resistance mutations, and 4 patients with wild-type virus. Deep sequencing of RNA and DNA detected 6 and 43 mutations, respectively, that were not identified by population sequencing. A subsequently performed hypermutation analysis, however, revealed hypermutation in 61.19% of 3,188 DNA reads with a resistance mutation. The removal of hypermutated reads dropped the number of additional mutations in DNA from 43 to 17. No hypermutation evidence was found in the RNA reads. Five of the 6 additional RNA mutations and all additional DNA mutations, after full exclusion of hypermutation bias, were observed in the 3 individuals with multiple resistance mutations detected by population sequencing. Despite focused selection of patients with T215 revertants or singleton mutations, deep sequencing failed to identify the resistant T215Y/F or M184V or any other resistance mutation, indicating that in most of these cases there is no hidden resistance and that the virus detected at diagnosis by population sequencing is the original infecting variant.A nalyzing the presence of transmitted drug resistance mutations (TDRMs) after diagnosis of HIV-1 infection is the standard of care in most developed countries (1). Information on TDRMs allows clinicians to initiate the first-line regimen with the highest likelihood of virological response. Surveys revealed TDRM prevalences of approximately 10% in Europe, a number that has remained relatively stable over the last few years, although some shifts in affected drug classes have been reported (2). The most commonly observed TDRMs in Europe and North America are associated with resistance to nucleoside reverse transcriptase (RT) inhibitors (NRTIs) or nonnucleoside RT inhibitors (NNRTIs). Baseline resistance to protease inhibitors (PIs) is less prevalent (2, 3). Standard baseline resistance testing is still mainly performed using Sanger-based population sequencing. This method generally fails to detect mutants representing less than 20% of the viral population (4, 5).Resistant viruses that initially caused the infection may be overgrown, with time and in the absence of drugs, by fitter variants that lack all or part of the resistance mutations as a result of back mutation (6-11). The highest rates of disappearance have been recorded for the NRTI mutation M184V/I (11-13) and for the thymidine analogue-associated mutations K70R and T215Y (11). Back mutation may result in replacement of the...

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Section: Discussionmentioning

confidence: 99%

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confidence: 99%

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Deep Sequencing of HIV-1 RNA and DNA in Newly Diagnosed Patients with Baseline Drug Resistance Showed No Indications for Hidden Resistance and Is Biased by Strong Interference of Hypermutation

et al. 2016

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“…In RRS, the rarely observed M184V in recently infected patients is most often transmitted from patients failing virologically, even though therapy-naïve patients seem to be the major source of new infections and therefore of TDR [56]. M184V has a high fitness cost, and thus its reversal and gradually decay in a drug-free environment prevents its onward transmission, by contrast to low fitness cost drug resistance mutations, such as M41L, T215 revertants and K103N [57 ]. This might explain why sensitive testing does not always result in higher TDR rates in chronically infected patients [58 ].…”

Section: Mutation-specific Assays Versus Ngs For Sensitive Detection mentioning

confidence: 99%

HIV-1 genotypic drug resistance testing: digging deep, reaching wide?

Laethem

Theys

Vandamme

2015

Current Opinion in Virology

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For many years, population-based Sanger sequencing has been the golden standard for drug resistance testing within the routine follow-up of HIV-1 infected patients in resource-rich settings. Often, the data generated within this framework were subsequently used for research and surveillance purposes: to understand therapy response and to gain insights into epidemiological processes. Sanger sequencing was however ill suited for diagnostic and prognostic use in resource-limited settings (RLS) and therefore not broadly implemented. Next-generation sequencing (NGS) technologies provide high-throughput approaches by the rapid acquisition of thousands to millions of short nucleotide sequences. Depending on the experimental design, the roll-out of NGS drug resistance testing at a larger scale is feasible, providing better characterization and understanding of the evolving population of viral variants within a patient and potentially improving the prognostic value of drug resistance testing. Whether the same will become true for RLS will largely depend on affordability and sample logistics, and this may affect other mutation-specific approaches.

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“…However, HIV-1 evolves rapidly and ART can lead to acquired mutations that confer drug resistance. Importantly, transmission of resistant HIV-1 strains may cause severe clinical and epidemiological problems, while therapeutic failure resulting from drug resistant HIV-1 strains has become a major factor that limits successful antiviral treatments [3,4]. As such, surveillance of HIV-1 mutations that do not respond to ART may provide additional information that could guide novel drug development and treatment strategies.…”

Section: Introductionmentioning

confidence: 99%

Epidemic Trend of HIV-1 Drug-Resistant Mutations Isolated From HIV-Infected Patients in Hebei, China from 2008 to 2013

Zhao¹,

Lu²,

Wang³

2016

J HIV Retrovirus

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Persistence of Transmitted HIV-1 Drug Resistance Mutations Associated with Fitness Costs and Viral Genetic Backgrounds

Cited by 73 publications

References 33 publications

Deep Sequencing of HIV-1 RNA and DNA in Newly Diagnosed Patients with Baseline Drug Resistance Showed No Indications for Hidden Resistance and Is Biased by Strong Interference of Hypermutation

Deep Sequencing of HIV-1 RNA and DNA in Newly Diagnosed Patients with Baseline Drug Resistance Showed No Indications for Hidden Resistance and Is Biased by Strong Interference of Hypermutation

HIV-1 genotypic drug resistance testing: digging deep, reaching wide?

Epidemic Trend of HIV-1 Drug-Resistant Mutations Isolated From HIV-Infected Patients in Hebei, China from 2008 to 2013

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