Full-genome next-generation sequencing of hepatitis C virus to assess the accuracy of genotyping by the commercial assay LiPA and the prevalence of resistance-associated substitutions in a Belgian cohort

Funding Information: This work and KTC were supported by grants from the Fonds voor Wetenschappelijk Onderzoek Vlaanderen (FWO) ( G069214 , G0B2317N , 1S38819N ). LC acknowledges FWO travel grant for a research visit at University of Oxford ( V431117N ). The authors thank the staff in Oxford in their support of the laboratory work and the donation of the probes used for enrichment of HCV. Publisher Copyright: © 2022 Elsevier B.V.Background: Although most currently used regimens for Hepatitis C virus (HCV) infections can be initiated without prior knowledge of genotype and subtype, genotyping is still useful to identify patients who might benefit from a personalized treatment due to resistance to direct-acting antivirals (DAA). Objectives: To assess the utility of full-genome next-generation sequencing (FG-NGS) for HCV genotyping. Study design: 138 HCV plasma samples previously genotyped by VERSANT HCV Genotype Assay (LiPA) were subjected to FG-NGS and phylogenetically genotyped Genome Detective. Consensuses were analysed by HCV-GLUE for resistance-associated substitutions (RASs) and their impact on treatment response was investigated. Results: 102/138 (73.9%) samples were sequenced to a genome coverage and depth of >90% of the HCV open reading frame covered by >100 reads/site. Concordant genotype and subtype results were assigned in 97.1% and 79.4% of samples, respectively. FG-NGS resolved the subtype of 13.7% samples that had ambiguous calls by LiPA and identified one dual infection and one recombinant strain. At least one RAS was found for the HCV genes NS3, NS5A, and NS5B in 2.91%, 36.98% and 27.3% samples, respectively. Irrespective of the observed RAS, all patients responded well to DAA treatment, except for HCV1b-infected patients treated with Zepatier (33.3% failure rate (5/15)). Conclusion: While LiPA and FG-NGS showed overall good concordance, FG-NGS improved specificity for subtypes, recombinant and mixed infections. FG-NGS enabled the detection of RAS, but its predictive value for treatment outcome in DAA-naïve patients remains uncertain. With additional refinements, FG-NGS may be the way forward for HCV genotyping.publishersversionpublishe

Implications of hepatitis C virus subtype 1a migration patterns for virus genetic sequencing policies in Italy

Background: In-depth phylogeographic analysis can reveal migration patterns relevant for public health planning. Here, as a model, we focused on the provenance, in the current Italian HCV subtype 1a epidemic, of the NS3 resistance-associated variant (RAV) Q80K, known to interfere with the action of NS3/4A protease inhibitor simeprevir. HCV1a migration patterns were analysed using Bayesian phylodynamic tools, capitalising on newly generated and publicly available time and geo-referenced NS3 encoding virus genetic sequence data. Results: Our results showed that both immigration and local circulation fuel the current Italian HCV1a epidemic. The United States and European continental lineages dominate import into Italy, with the latter taking the lead from the 1970s onwards. Since similar migration patterns were found for Q80K and other lineages, no clear differentiation of the risk for failing simeprevir can be made between patients based on their migration and travel history. Importantly, since HCV only occasionally recombines, these results are readily transferable to the genetic sequencing policy concerning NS5A RAVs. Conclusions: The patient migration and travel history cannot be used to target only part of the HCV1a infected population for drug resistance testing before start of antiviral therapy. Consequently, it may be cost-effective to expand genotyping efforts to all HCV1a infected patients eligible for simeprevir-based therapies. © 2017 The Author(s)

Evaluation of the automatic editing tool RECall for HIV-1 pol and V3 loop sequences

Genotypic drug resistance testing is routine practice in HIV-1 clinical care. The visual interpretation of sequencing electropherograms is labour-intensive and subject to intra- and inter-assay variability because decisions are based on operators' judgments. In this study the performance of the automatic editing tool RECall was compared to the current standard of editing manually and editing using the tool ViroSeq. Using RECall a consensus sequence could be generated for 97% of the V3 loop and for 79% of the pol experiments. By comparison, using manual editing a consensus sequence could be reached for 87% of the V3 and 87% of the pol experiments. Using ViroSeq, a consensus sequence was generated for 68% of the pol experiments. On a predefined dataset, manual editing displayed the highest probability to accurately assign mixtures (0.91 vs. 0.88 by ViroSeq vs. 0.76 by RECall) and the lowest probability to inaccurately assign a mixture to a pure base call (0.002 vs. 0.019 by ViroSeq vs. 0.002 by RECall). As differences in base calling have little impact on drug resistance interpretation and hands-on-time could be substantially reduced, RECall could be a valuable tool for the standardization and acceleration of the editing process.publisher: Elsevier articletitle: Evaluation of the automatic editing tool RECall for HIV-1 pol and V3 loop sequences journaltitle: Journal of Virological Methods articlelink: http://dx.doi.org/10.1016/j.jviromet.2013.05.017 content_type: article copyright: Copyright © 2013 Elsevier B.V. All rights reserved.status: publishe

Drug resistance among therapy-naïve HIV-infected patients studied by sequencing and VERSANT HIV-1 resistance assays (LiPA) has limited impact on treatment response

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HIV-1 resistance testing using a commercial kit can be performed reliably without prior sequencing experience

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Characterization of in vivo mutational patterns within HIV-1 group M viruses developed during long-term enfuvirtide therapy and after discontinuation on enfuvirtide

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Horizontal gene transfer from human host to HIV-1 reverse transcriptase confers drug resistance and partly compensates for replication deficits.

We investigated the origin and the effect of insertion D67D-THGERDLGPA within HIV-1 RT from a patient failing antiviral therapy. The insertion developed within the context of pre-existing NRTI and NNRTI mutations (M41L, L210W, T215Y and N348I). Concurrently, the NRTI mutations T69I and V118I and the NNRTI mutations K103N and Y181C were detected for the first time. High-level drug resistance (fold-changes>/=50) and a good replication capacity (87% of wild-type) were observed, significantly higher than for the previous virus without insertion. The insertion was very similar to a region within human chromosome 17 (31/34 nucleotide identity), and had already been detected independently in a Japanese HIV-1 isolate. These results suggest that a particular sequence within human chromosome 17 is prone to horizontal gene transfer into the HIV-1 RT finger subdomain. This insertion confers selective advantage to HIV-1 by its contribution to multi-drug resistance and restoration of impaired replication capacity

A genotypic resistance assay for the detection of drug resistance in the human immunodeficiency virus type 1 envelope gene

Since it is not clear yet whether enfuvirtide resistance is restricted to gp41, it was decided to develop a genotypic assay for the detection of drug resistance in the entire human immunodeficiency virus type 1 (HIV-1) env gene. Given the increasing prevalence of HIV-1 non-B subtypes in Europe, it is important to evaluate the performance of the assay on a panel of genetically divergent samples. A panel of 1 laboratory and 10 clinical isolates from 10 patients was tested, all enfuvirtide naive and chosen according to the subtype as determined in the pol region (A, B, C, H, CRF01-AE, CRF02-AG, CRF05-DF, CRF11-cpx and U), while their env sequences belonged to subtypes A, B, C, H, A/G recombinant, B/H recombinant, CRF01-AE, CRF02-AG, CRF05-DF and CRF11-cpx. The detection limits of the gp120 and the gp41 PCRs ranged between 500 and 5000 RNA copies/ml plasma. The highest sensitivity was obtained for the laboratory strain, whereas the detection limit for all patient samples, except for the subtype C sample, was 1000 RNA copies/ml. The numerous insertions and deletions in the gp120 gene, that were often present as quasi-species, necessitated the sequencing of cloned PCR products. The gp41 gene displayed less diversity and less insertions/deletions. Especially, the heptad repeat 1 was highly conserved and none of the enfuvirtide naive samples contained any of the already known enfuvirtide resistance mutations at amino acid positions 36-45. This study demonstrates that the assay is able to genotype genetically diverse HIV-1 strains with a good sensitivity.status: publishe

Evolution of genotypic resistance to enfuvirtide in HIV-1 isolates from different group M subtypes

Background: Enfuvirtide is active against isolates from different HIV-1 subtypes. In vitro and in vivo studies reveal that resistance mutations are primarily found within the region spanning amino acid 36-45 of gp41. However, most studies include only subtype B strains, while it is known that especially the env region is very divergent among subtypes. Objectives: To analyze the gp41 HR1 genetic evolution during failure of enfuvirtide-containing salvage regimens in 19 HIV-1 patients infected with strains from different group M subtypes. Study design: The gp41 sequence was determined at baseline and upon failure in 19 patients. For a subset of 7 patients, samples were available after discontinuation of enfuvirtide. Results: Our results confirmed the conserved nature of the HR1 region. Escape mutants during chronic treatment with enfuvirtide were mainly observed within region 36-45. One novel mutation was identified, i.e. S42G in a subtype A1 strain. Conclusions: Different subtypes escape enfuvirtide selective pressure through similar mutational patterns, however a new S42G variant was observed. The in vivo selection of S42G suggests that it might play a role in enfuvirtide resistance. Therefore, it could be considered as a candidate mutation to be included within drug resistance interpretation systems. © 2009 Elsevier B.V. All rights reserved.SCOPUS: ar.jinfo:eu-repo/semantics/publishe

A genotypic resistance assay for the detection of drug resistance in the human immunodeficiency virus type 1 envelope gene

Since it is not clear yet whether enfuvirtide resistance is restricted to gp41, it was decided to develop a genotypic assay for the detection of drug resistance in the entire human immunodeficiency virus type 1 (HIV-1) env gene. Given the increasing prevalence of HIV-1 non-B subtypes in Europe, it is important to evaluate the performance of the assay on a panel of genetically divergent samples. A panel of 1 laboratory and 10 clinical isolates from 10 patients was tested, all enfuvirtide naive and chosen according to the subtype as determined in the pol region (A, B, C, H, CRF01-AE, CRF02-AG, CRF05-DF, CRF11-cpx and U), while their env sequences belonged to subtypes A, B, C, H, A/G recombinant, B/H recombinant, CRF01-AE, CRF02-AG, CRF05-DF and CRF11-cpx. The detection limits of the gp120 and the gp41 PCRs ranged between 500 and 5000 RNA copies/ml plasma. The highest sensitivity was obtained for the laboratory strain, whereas the detection limit for all patient samples, except for the subtype C sample, was 1000 RNA copies/ml. The numerous insertions and deletions in the gp120 gene, that were often present as quasi-species, necessitated the sequencing of cloned PCR products. The gp41 gene displayed less diversity and less insertions/deletions. Especially, the heptad repeat 1 was highly conserved and none of the enfuvirtide naive samples contained any of the already known enfuvirtide resistance mutations at amino acid positions 36-45. This study demonstrates that the assay is able to genotype genetically diverse HIV-1 strains with a good sensitivity.info:eu-repo/semantics/publishe