Your search keyword '"Svarovskaia, Evguenia S."' showing total 7 results

1. Impact of Minority Nonnucleoside Reverse Transcriptase Inhibitor Resistance Mutations on Resistance Genotype After Virologic Failure

Author

Li, Jonathan Z., Paredes, Roger, Ribaudo, Heather J., Kozal, Michael J., Svarovskaia, Evguenia S., Johnson, Jeffrey A., Geretti, Anna Maria, Metzner, Karin J., Jakobsen, Martin R., Hullsiek, Katherine Huppler, Ostergaard, Lars, Miller, Michael D., and Kuritzkes, Daniel R.

Published

2013

2. L159F and V321A Sofosbuvir-Associated Hepatitis C Virus NS5B Substitutions.

Author

Svarovskaia, Evguenia S., Gane, Edward, Dvory-Sobol, Hadas, Martin, Ross, Doehle, Brian, Hedskog, Charlotte, Jacobson, Ira M., Nelson, David R., Lawitz, Eric, Brainard, Diana M., McHutchison, John G., Miller, Michael D., and Mo, Hongmei

Subjects

*HEPATITIS C virus, *DRUG resistance, *MEDICAL virology, *RIBAVIRIN, *INTERFERONS, *ANTIVIRAL agents, *DRUG resistance in microorganisms, *HEPATITIS C, *HEPATITIS viruses, *MOLECULAR epidemiology, *RESEARCH funding, *SEQUENCE analysis, SOFOSBUVIR

Abstract

Background: Sofosbuvir (SOF) exhibits a high barrier to resistance, with no S282T NS5B substitution or phenotypic resistance detected in phase 3 registration studies.Methods: Here, emergence of the NS5B variants L159F and V321A and possible association with resistance was evaluated in 8 studies of SOF (NEUTRINO, FISSION, POSITRON, FUSION, VALENCE, PHOTON-1, PHOTON-2, and P7977-2025) and 5 studies of combination ledipasvir (LDV) and SOF (LDV/SOF; LONESTAR, ELECTRON [LDV/SOF arms], ION1, ION2, and ION3), using deep sequencing.Results: Deep sequencing detected L159F in 15% (53 of 353) and V321A in 5% (17 of 353) of patients with virologic failure in the SOF studies. Intensification of SOF treatment with LDV reduced the emergence of L159F or V321A to 2% (1 of 50 each) at virologic failure. L159F and V321A did not influence the outcome of retreatment with SOF, ribavirin, and pegylated interferon. At baseline, L159F was detected only in genotype 1-infected patients (1%) and was only associated with increased virologic failure in patients treated for short durations with SOF and ribavirin.Conclusions: Deep-sequencing analysis confirmed that NS5B variants L159F and V321A emerged in a subset of patients treated with SOF at virologic failure. These variants had no impact on retreatment outcome with SOF, ribavirin, and pegylated interferon. Baseline L159F in genotype 1 did not affect the treatment outcome with LDV/SOF. [ABSTRACT FROM AUTHOR]

Published

2016

3. Infrequent Development of Resistance in Genotype 1–6 Hepatitis C Virus–Infected Subjects Treated With Sofosbuvir in Phase 2 and 3 Clinical Trials.

Author

Svarovskaia, Evguenia S., Dvory‐Sobol, Hadas, Parkin, Neil, Hebner, Christy, Gontcharova, Viktoria, Martin, Ross, Ouyang, Wen, Han, Bin, Xu, Simin, Ku, Karin, Chiu, Sophia, Gane, Edward, Jacobson, Ira M., Nelson, David R., Lawitz, Eric, Wyles, David L., Bekele, Neby, Brainard, Diana, Symonds, William T., and McHutchison, John G.

Subjects

*HEPATITIS C treatment, *HEPATITIS C, *ANTIVIRAL agents, *DRUG resistance, *CLINICAL trials, *VIRAL load, *GENETICS

Abstract

Data demonstrate a uniform susceptibility of subject-derived hepatitis C virus (HCV) to sofosbuvir, and also show that selection of sofosbuvir-resistant HCV is exceedingly rare and is associated with a significant reduction in viral fitness.Background. Sofosbuvir is a chain-terminating nucleotide analogue inhibitor of the hepatitis C virus (HCV) NS5B RNA polymerase that is efficacious in subjects with HCV genotype 1–6 infection. Sofosbuvir resistance is primarily conferred by the S282T substitution in NS5B.Methods. NS5B sequencing and susceptibility testing of HCV from subjects infected with genotypes 1–6 who participated in phase 2 and 3 sofosbuvir clinical trials was performed.Results. No NS5B variants present at baseline among 1645 sofosbuvir-treated subjects were associated with treatment failure; sofosbuvir susceptibility was within 2-fold of reference. Among 282 subjects who did not achieve sustained virologic response, no novel sofosbuvir resistance–associated variants were identified, and the NS5B changes observed did not confer significant reductions in sofosbuvir susceptibility. In 1 subject with S282T observed at relapse 4 weeks after sofosbuvir monotherapy, the resistant variant (13.5-fold reduced sofosbuvir susceptibility, replication capacity <2% of control) became undetectable by deep sequencing 12 weeks after treatment. L159F and V321A were identified as treatment-emergent variants but did not confer resistance to sofosbuvir in the replicon system.Conclusions. These data demonstrate a uniform susceptibility of subject-derived HCV to sofosbuvir, and also show that selection of sofosbuvir-resistant HCV is exceedingly rare and is associated with a significant reduction in viral fitness. [ABSTRACT FROM AUTHOR]

Published

2014

4. Contribution of a mutational bias in hepatitis C virus replication to the genetic barrier in the development of drug resistance.

Author

Powdrill, Megan H., Tchesnokov, Egor P., Kozak, Robert A., Russell, Rodney S., Martin, Ross, Svarovskaia, Evguenia S., Mo, Hongmei, Kouyos, Roger D., and Götte, Matthias

Subjects

HEPATITIS C virus, DRUG resistance, ANTIVIRAL agents, RNA polymerases, GENETIC mutation, ENZYME kinetics, STOCHASTIC models

Abstract

The development of resistance to direct-acting antivirals (DAAs) targeting the hepatitis C virus (HCV) can compromise therapy. However, mechanisms that determine prevalence and frequency of resistance-conferring mutations remain elusive. Here, we studied the fidelity of the HCV RNA-dependent RNA polymerase NS5B in an attempt to link the efficiency of mismatch formation with genotypic changes observed in vivo. Enzyme kinetic measurements revealed unexpectedly high error rates (approximately 10-3 per site) for G:U/U:G mismatches. The strong preference for G:U/U:G mismatches over all other mistakes correlates with a mutational bias in favor of transitions over transversions. Deep sequencing of HCV RNA samples isolated from 20 treatment-naïve patients revealed an approximately 75-fold difference in frequencies of the two classes of mutations. A stochastic model based on these results suggests that the bias toward transitions can also affect the selection of resistance-conferring mutations. Collectively, the data provide strong evidence to suggest that the nature of the nucleotide change can contribute to the genetic barrier in the development of resistance to DAAs. [ABSTRACT FROM AUTHOR]

Published

2011

5. Low-Frequency HIV-1 Drug Resistance Mutations and Risk of NNRTI-Based Antiretroviral Treatment Failure: A Systematic Review and Pooled Analysis.

Author

Li, Jonathan Z., Paredes, Roger, Ribaudo, Heather J., Svarovskaia, Evguenia S., Metzner, Karin J., Kozal, Michael J., Hullsiek, Kathy Huppler, Balduin, Melanie, Jakobsen, Martin R., Geretti, Anna Maria, Thiebaut, Rodolphe, Ostergaard, Lars, Masquelier, Bernard, Johnson, Jeffrey A., Miller, Michael D., and Kuritzkes, Daniel R.

Subjects

DRUG resistance, HIV, REVERSE transcriptase inhibitors, ANTIRETROVIRAL agents, MICROBIAL mutation, RESEARCH

Abstract

The article discusses a systematic review and pooled analysis of the link between preexisting drug-resistant human immunodeficiency (HIV)-1 minority variants and the risk of nonnucleoside reverse transcriptase inhibitor (NNRTI)-based antiretroviral virologic failure. The risk of virologic failure was estimated using Cox proportional hazard models. There was a significant link between low-frequency HIV-1 drug resistance mutations and a higher risk of virologic failure with first-line antiretroviral treatment (ART) based on the analysis. It was found that race or ethnicity was a significant predictor of virologic failure.

Published

2011

6. Antiretroviral Drug Resistance Mutations in Human Immunodeficiency Virus Type 1 Reverse Transcriptase Increase Template-Switching Frequency.

Author

Nikolenko, Galina N., Svarovskaia, Evguenia S., Delviks, Krista A., and Pathak, Vinay K.

Subjects

*ANTIVIRAL agents, *DRUG resistance, *GENETIC mutation, *HIV, *REVERSE transcriptase, *VIRAL replication

Abstract

Template-switching events during reverse transcription are necessary for completion of retroviral replication and recombination. Structural determinants of human immunodeficiency virus type 1 (H1V-1) reverse transcriptase (RT) that influence its template-switching frequency are not known. To identify determinants of HIV-1 RT that affect the frequency of template switching, we developed an in vivo assay in which RT template-switching events during viral replication resulted in functional reconstitution of the green fluorescent protein gene. A survey of single amino acid substitutions near the polymerase active site or deoxynucleoside triphosphate-binding site of HIV-1 RT indicated that several substitutions increased the rate of RT template switching. Several mutations associated with resistance to antiviral nucleoside analogs (K6SR, L74V, E89G, QL51N, and M1841) dramatically increased RT template-switching frequencies by two- to sixfold in a single replication cycle. In contrast, substitutions in the RNase H domain (H539N, D549N) decreased the frequency of RT template switching by twofold. Depletion of intracellular nucleotide pools by hydroxyurea treatment of cells used as targets for infection resulted in a 1.8-fold increase in the frequency of RT template switching. These results indicate that the dynamic steady state between polymerase and RNase H activities is an important determinant of HlV-1 RT template switching and establish that HIV-1 recombination occurs by the previously described dynamic copy choice mechanism. These results also indicate that mutations conferring resistance to antiviral drugs can increase the frequency of RT template switching and may influence the rate of retroviral recombination and viral evolution. [ABSTRACT FROM AUTHOR]

Published

2004

7. Post-treatment resistance analysis of hepatitis C virus from phase II and III clinical trials of ledipasvir/sofosbuvir.

Author

Wyles, David, Dvory-Sobol, Hadas, Svarovskaia, Evguenia S., Doehle, Brian P., Martin, Ross, Brainard, Diana M., Miller, Michael D., Mo, Hongmei, Afdhal, Nezam H., Kowdley, Kris V., Lawitz, Eric, and Gane, Edward J.

Subjects

*CLINICAL trials, *HEPATITIS C treatment, *GENOTYPES, *DRUG resistance, SOFOSBUVIR

Abstract

Background & Aims Ledipasvir/sofosbuvir combination treatment in phase III clinical trials resulted in sustained viral suppression in 94–99% of patients. This study characterized drug resistance in treatment failures, which may help to inform retreatment options. Methods We performed NS5A and NS5B deep sequencing of hepatitis C virus (HCV) from patients infected with genotype (GT) 1 who participated in ledipasvir/sofosbuvir phase II and III clinical trials. Results Fifty-one of 2144 (2.4%) (42 GT1a and 9 GT1b) treated patients met the criteria for resistance analysis due to virologic failure following the end of treatment. The majority of patients with virologic failure (38 of 51; 74.5%) had detectable ledipasvir-specific resistance-associated substitutions (RASs) at the time of virologic failure (1% deep sequencing cut-off). The percent of patients with NS5A RASs at virologic failure were 37.5%, 66.7%, 94.7% and 100% in patients treated for 6, 8, 12 and 24 weeks, respectively. The common substitutions detected at failure were Q30R/H, and/or Y93H/N in GT1a and Y93H in GT1b. At failure, 35.3% (18/51) of virologic failure patients’ viruses had two or more NS5A RASs and the majority of patients harbored NS5A RASs conferring a 100–1000-fold (n = 10) or >1000-fold (n = 23) reduced susceptibility to ledipasvir. One patient in a phase II study with a known ledipasvir RAS at baseline (L31M) developed the S282T sofosbuvir (NS5B) RAS at failure. Conclusions In GT1 HCV-infected patients treated with ledipasvir/sofosbuvir ± ribavirin, virologic failure was rare. Ledipasvir resistance in NS5A was selected or enhanced in most patients with virologic failure, one of whom also developed resistance to sofosbuvir. Lay summary Clinical studies have shown that combination treatment with ledipasvir/sofosbuvir efficiently cures most patients with genotype 1 hepatitis C infection. For the few patients failing treatment, we show that resistance to ledipasvir was observed in most patients, whereas resistance to sofosbuvir was less common. This has important implications for the selection of optimal retreatment strategies for these patients. [ABSTRACT FROM AUTHOR]

Published

2017