Discrepancy of potential antiviral resistance mutation profiles within the HBV reverse transcriptase between nucleos(t)ide analogue‐untreated and ‐treated patients with chronic hepatitis B in a hospital in China

Little is known about the discrepancy of the potential antiviral resistance mutation profiles within the hepatitis B virus (HBV) reverse transcriptase (RT) between nucleos(t)ide analogue (NA)‐untreated and ‐treated patients with chronic hepatitis B. Full‐length HBV RT sequences from 59 NA‐treated and 105 NA‐untreated Chinese patients were amplified and sequenced. Forty‐two potential NA resistance (NAr) mutation sites were screened within these 164 RT sequences. The NAr mutation prevalence and frequency in the NA‐treated group were significantly higher than those in the NA‐untreated one (P < 0.001, respectively). The classical primary drug resistance and secondary/compensatory mutations were only detected at seven sites (rtL80, rtI169, rtL180, rtA181, rtT184, rtM204, and rtN236) in NA‐treated patients. The non‐classical putative NAr and pre‐treatment mutations were observed at 22 sites (rtT38, rtN/S53, rtL82, rtL/I91, rtN/Y124, rtH126, rtT128, rtN/D134, rtN139, rtR153, rtV191, rtV207, rtS213, rtV214, rtE218, rtY/F221, rtV/I224, rtL229, rtI233, rtN/H238, rtR242, and rtS/C256) in both groups. Substitutions at seven non‐classical mutation sites were of interest due to either detection only in patients with virologic breakthrough (rtL82 and rtV214), or potential ties with HBV genotypes (rtV191 and rtL229), or coexistence with rtM204I/V (rtL229), or increased mutation trends after NA‐treatment (rtT128, rtV207, and rtN/H238). In conclusion, NA treatment not only constitutes a major selection factor for the primary and secondary/compensatory NAr mutations but also drives the changes of some of the putative NAr mutation sites, most of which are the genotype‐independent RT sites (rtL82, rtT128, rtV191, rtV207, rtV214, rtL229, and rtN/H238). Their antiviral resistance potential calls for further investigations. J. Med. Virol. 84:207–216, 2012. © 2011 Wiley Periodicals, Inc.

[1]  V. Soriano,et al.  New 2011 updated DHHS antiretroviral treatment guidelines and chronic hepatitis B. , 2011, AIDS.

[2]  V. Soriano,et al.  Detection of hepatitis B virus genotype A3 and primary drug resistance mutations in African immigrants with chronic hepatitis B in Spain. , 2011, The Journal of antimicrobial chemotherapy.

[3]  H. Tillmann,et al.  Mutation pattern of lamivudine resistance in relation to hepatitis B genotypes: Hepatitis B genotypes differ in their lamivudine resistance associated mutation pattern , 2010, Journal of medical virology.

[4]  H. Zhuang,et al.  Profile of HBV antiviral resistance mutations with distinct evolutionary pathways against nucleoside/ nucleotide analogue treatment among Chinese chronic hepatitis B patients , 2010, Antiviral therapy.

[5]  Joan M. Block,et al.  The dawn of a new era: Transforming our domestic response to hepatitis B & C: Activity 3: Transforming strategies for the prevention of chronic HBV and HCV infections , 2010 .

[6]  H. Zhuang,et al.  Characterization of potential antiviral resistance mutations in hepatitis B virus reverse transcriptase sequences in treatment-naïve Chinese patients. , 2010, Antiviral research.

[7]  F. Ceccherini‐Silberstein,et al.  The profile of mutational clusters associated with lamivudine resistance can be constrained by HBV genotypes. , 2009, Journal of hepatology.

[8]  I. Serra,et al.  Telbivudine, a nucleoside analog inhibitor of HBV polymerase, has a different in vitro cross-resistance profile than the nucleotide analog inhibitors adefovir and tenofovir. , 2009, Antiviral research.

[9]  F. Zoulim,et al.  Management and prevention of drug resistance in chronic hepatitis B , 2009, Liver international : official journal of the International Association for the Study of the Liver.

[10]  Jörg Petersen,et al.  EASL Clinical Practice Guidelines: management of chronic hepatitis B. , 2009, Journal of hepatology.

[11]  F. Zoulim,et al.  Impact of hepatitis B virus rtA181V/T mutants on hepatitis B treatment failure. , 2008, Journal of hepatology.

[12]  C. Mazzucco,et al.  Comprehensive evaluation of hepatitis B virus reverse transcriptase substitutions associated with entecavir resistance , 2008, Hepatology.

[13]  V. Soriano,et al.  Hepatitis B virus escape mutants induced by antiviral therapy. , 2008, The Journal of antimicrobial chemotherapy.

[14]  Huy A. Nguyen,et al.  S2075 Prevalence of HBV DNA Polymerase (B-DNA Pol) Mutations in 345 Patients with Treatment-NaïVe Chronic Hepatitis B (CHB) , 2008 .

[15]  S. Locarnini Primary resistance, multidrug resistance, and cross-resistance pathways in HBV as a consequence of treatment failure , 2008, Hepatology international.

[16]  Y. Paik,et al.  563 HEPATITIS B VIRUS QUASISPECIES IN THE POLYMERASE GENE IN TREATMENT-NAIVE CHRONIC HEPATITIS B PATIENTS , 2008 .

[17]  V. Soriano,et al.  Selection of Hepatitis B Virus (HBV) Vaccine Escape Mutants in HBV-Infected and HBV/HIV-Coinfected Patients Failing Antiretroviral Drugs With Anti-HBV Activity , 2007, Journal of acquired immune deficiency syndromes.

[18]  K. Borroto-Esoda,et al.  Pooled analysis of amino acid changes in the HBV polymerase in patients from four major adefovir dipivoxil clinical trials. , 2007, Journal of hepatology.

[19]  Angeline Bartholomeusz,et al.  Antiviral drug‐resistant HBV: Standardization of nomenclature and assays and recommendations for management , 2007, Hepatology.

[20]  Ronald E. Rose,et al.  Inhibition of Hepatitis B Virus Polymerase by Entecavir , 2007, Journal of Virology.

[21]  Zhuang,et al.  Guideline on prevention and treatment of chronic hepatitis B in China (2005). , 2007, Chinese medical journal.

[22]  C. Mazzucco,et al.  Entecavir resistance is rare in nucleoside naïve patients with hepatitis B , 2006, Hepatology.

[23]  B. Rodés,et al.  Mutations affecting the replication capacity of the hepatitis B virus , 2006, Journal of viral hepatitis.

[24]  T. Harrison,et al.  Hepatitis B Virus: Molecular Virology and Common Mutants , 2006, Seminars in liver disease.

[25]  Angeline Bartholomeusz,et al.  HBV drug resistance: mechanisms, detection and interpretation. , 2006, Journal of hepatology.

[26]  S. Locarnini,et al.  Cellular and virological mechanisms of HBV drug resistance. , 2006, Journal of hepatology.

[27]  B. Sharma,et al.  Characterization of Naturally Occurring and Lamivudine-Induced Surface Gene Mutants of Hepatitis B Virus in Patients with Chronic Hepatitis B in India , 2006, Intervirology.

[28]  E. Tabor Infections by hepatitis B surface antigen gene mutants in Europe and North America , 2006, Journal of medical virology.

[29]  J. Echevarría,et al.  Hepatitis B virus genetic diversity , 2006, Journal of medical virology.

[30]  N. Leung,et al.  A 1-year trial of telbivudine, lamivudine, and the combination in patients with hepatitis B e antigen-positive chronic hepatitis B. , 2005, Gastroenterology.

[31]  P. Coursaget,et al.  Genetic Diversity of Hepatitis B Virus Strains Derived Worldwide: Genotypes, Subgenotypes, and HBsAg Subtypes , 2004, Intervirology.

[32]  Yoshiyuki Suzuki,et al.  YMDD mutants in patients with chronic hepatitis B before treatment are not selected by lamivudine , 2004, Journal of medical virology.

[33]  E. Keeffe,et al.  Management of Antiviral Resistance in Patients with Chronic Hepatitis B , 2004, Antiviral therapy.

[34]  B. Tehan,et al.  Comparisons of the Hbv and HIV Polymerase, and Antiviral Resistance Mutations , 2003, Antiviral therapy.

[35]  Antonina Smedile,et al.  Identification of HBV DNA sequences that are predictive of response to lamivudine therapy , 2004, Hepatology.

[36]  A. Zuckerman,et al.  Mutations of the surface protein of hepatitis B virus. , 2003, Antiviral research.

[37]  M. Wulfsohn,et al.  Adefovir dipivoxil for the treatment of hepatitis B e antigen-positive chronic hepatitis B. , 2003, The New England journal of medicine.

[38]  S. Hasnain,et al.  Prevalence and profile of mutations associated with lamivudine therapy in Indian patients with chronic hepatitis B in the surface and polymerase genes of hepatitis B virus , 2002, Journal of medical virology.

[39]  H. Agut,et al.  Primary infection with a lamivudine-resistant hepatitis B virus. , 2002, AIDS.

[40]  N. Leung,et al.  Extended lamivudine treatment in patients with chronic hepatitis B enhances hepatitis B e antigen seroconversion rates: Results after 3 years of therapy , 2001, Hepatology.

[41]  D. Richman,et al.  Nomenclature for antiviral‐resistant human hepatitis B virus mutations in the polymerase region , 2001, Hepatology.

[42]  D. Richman,et al.  Nomenclature for antiviral‐resistant human hepatitis B virus mutations in the polymerase region , 2001, Hepatology.

[43]  N. Enomoto,et al.  Prevalence and significance of naturally occurring mutations in the surface and polymerase genes of hepatitis B virus. , 1999, The Journal of infectious diseases.

[44]  A. Zuckerman,et al.  Molecular epidemiology of hepatitis B virus mutants , 1999, Journal of medical virology.

[45]  F. Zoulim,et al.  Transient selection of a hepatitis B virus polymerase gene mutant associated with a decreased replication capacity and famciclovir resistance , 1999, Hepatology.

[46]  Y. Cheng,et al.  Role of additional mutations outside the YMDD motif of hepatitis B virus polymerase in L(-)SddC (3TC) resistance. , 1998, Biochemical pharmacology.