Characterization of antiviral resistance mutations among the Eastern Indian Hepatitis B virus infected population

Virol J. 2013 Feb 14:10:56. doi: 10.1186/1743-422X-10-56.

Abstract

Background: Antiviral therapy using nucleos(t)ide analogues (NAs) is an effective control measure of chronic hepatitis B virus (HBV) infection; however they need long term treatment. Presence of drug-resistance mutations may get in the way of the efficacy of antiviral therapy. Our study was aimed at defining the prevalence of HBV drug-resistance in HBVrt region in a population of 147 HBsAg positive patients.

Findings: HBV/D has shown multiple types of HBVrt mutations both among treatment naïve (65.0%, 13 of 20 HBV/D) and treated patients (56.2%, 9 of 16 HBV/D). In additional, several mutations, with a suggested role in drug resistance, were detected among the treatment naïve as well as the treated patients. The mutations reported to be involved in reduction of drug effectiveness, was common among non-responders to therapy as well as among the naïve patients. Notably, classical antiviral resistance mutations (rtL80I/V-rtI169T-rtV173L-rtL180M-rtA181T/V/S-rtT184A/S/G/C-rtA194T-rtS202C /G/I -rtM204V/I-rtN236T-rtM250V) were not detected.

Conclusion: The prevalence of putative NAr mutations among non responders to therapy suggests that they might have role in reduced efficacy of currently available antivirals and requires further investigations.

Publication types

  • Research Support, Non-U.S. Gov't

MeSH terms

  • Adult
  • Antiviral Agents / therapeutic use
  • DNA, Viral / chemistry
  • DNA, Viral / genetics
  • Drug Resistance, Viral*
  • Female
  • Hepatitis B virus / genetics*
  • Hepatitis B virus / isolation & purification
  • Hepatitis B, Chronic / drug therapy
  • Hepatitis B, Chronic / virology*
  • Humans
  • India
  • Male
  • Middle Aged
  • Molecular Sequence Data
  • Mutation, Missense*
  • Polymorphism, Genetic
  • Prevalence
  • Retrospective Studies
  • Sequence Analysis, DNA
  • Treatment Outcome
  • Young Adult

Substances

  • Antiviral Agents
  • DNA, Viral

Associated data

  • GENBANK/JQ316695
  • GENBANK/JQ316696
  • GENBANK/JQ316697
  • GENBANK/JQ316698
  • GENBANK/JQ316699
  • GENBANK/JQ316700
  • GENBANK/JQ316701
  • GENBANK/JQ316702
  • GENBANK/JQ316703
  • GENBANK/JQ316704
  • GENBANK/JQ316705
  • GENBANK/JQ316706
  • GENBANK/JQ316707
  • GENBANK/JQ316708
  • GENBANK/JQ316709
  • GENBANK/JQ316710
  • GENBANK/JQ316711
  • GENBANK/JQ316712
  • GENBANK/JQ316713
  • GENBANK/JQ316714
  • GENBANK/JQ316715
  • GENBANK/JQ316716
  • GENBANK/JQ316717
  • GENBANK/JQ316718
  • GENBANK/JQ316719
  • GENBANK/JQ316720
  • GENBANK/JQ316721
  • GENBANK/JQ316722
  • GENBANK/JQ316723
  • GENBANK/JQ316724
  • GENBANK/JQ316725
  • GENBANK/JQ316726
  • GENBANK/JQ316727
  • GENBANK/JQ316728
  • GENBANK/JQ316729
  • GENBANK/JQ316730
  • GENBANK/JQ316731
  • GENBANK/JQ316732
  • GENBANK/JQ316733
  • GENBANK/JQ316734
  • GENBANK/JQ316735
  • GENBANK/JQ316736
  • GENBANK/JQ316737
  • GENBANK/JQ316738
  • GENBANK/JQ316739
  • GENBANK/JQ316740
  • GENBANK/JQ316741
  • GENBANK/JQ316742
  • GENBANK/JQ316743
  • GENBANK/JQ316744
  • GENBANK/JQ316745
  • GENBANK/JQ316746
  • GENBANK/JQ316747
  • GENBANK/JQ316748
  • GENBANK/JQ316749
  • GENBANK/JQ316750
  • GENBANK/JQ316751
  • GENBANK/JQ316752
  • GENBANK/JQ316753
  • GENBANK/JQ316754
  • GENBANK/JQ316755
  • GENBANK/JQ316756
  • GENBANK/JQ316757
  • GENBANK/JQ316758
  • GENBANK/JQ316759
  • GENBANK/JQ316760
  • GENBANK/JQ316761
  • GENBANK/JQ316762
  • GENBANK/JQ316763
  • GENBANK/JQ316764
  • GENBANK/JQ316765
  • GENBANK/JQ316766
  • GENBANK/JQ316767
  • GENBANK/JQ316768
  • GENBANK/JQ316769
  • GENBANK/JQ316770
  • GENBANK/JQ316771
  • GENBANK/JQ316772
  • GENBANK/JQ316773
  • GENBANK/JQ316774
  • GENBANK/JQ316775
  • GENBANK/JQ316776
  • GENBANK/JQ316777
  • GENBANK/JQ316778
  • GENBANK/JQ316779