Sanae Hayashi1, Shuko Murakami1, Katsumi Omagari1, Takeshi Matsui2, Etsuko Iio1, Masanori Isogawa1, Tsunamasa Watanabe1, Yoshiyasu Karino3, Yasuhito Tanaka4. 1. Department of Virology & Liver Unit, Nagoya City University Graduate School of Medical Science, Nagoya, Japan. 2. Department of Virology & Liver Unit, Nagoya City University Graduate School of Medical Science, Nagoya, Japan; Center for Gastroenterology, Teine Keijinkai Hospital, Sapporo, Japan. 3. Department of Gastroenterology, Sapporo Kosei General Hospital, Hokkaido, Japan. 4. Department of Virology & Liver Unit, Nagoya City University Graduate School of Medical Science, Nagoya, Japan. Electronic address: ytanaka@med.nagoya-cu.ac.jp.
Abstract
BACKGROUND & AIMS: Entecavir (ETV) is approved for the treatment of chronic hepatitis B virus (HBV) infections, but the virus can acquire resistance to the drug. This requires lamivudine resistance mutations (LAMr) and at least one additional mutation. Here, we characterized two novel mutations, rtI163V and rtA186T, associated with viral breakthrough (VBT) in an ETV-refractory patient. METHODS: HBV from an ETV-refractory patient was sequenced, and newly identified mutations were inserted into a replication-competent clone by mutagenesis. Clones were analyzed for replication efficacy and susceptibility to ETV in vitro. Chimeric mice with human hepatocytes were inoculated with the patient's serum at VBT, and monitored for viral mutation pattern using a next-generation sequencing approach. RESULTS: RtI163V and rtA186T mutations were detected together with LAMr (rtL180M and rtM204V) at VBT. RtA186T plus LAMr reduced susceptibility to ETV more than 111.1-fold compared with the wild-type clone, while rtI163V plus LAMr resulted in a 20.4-fold reduction. RtA186T significantly reduced viral replication efficacy, while the rtI163V mutation rescued it. Interestingly, the viral mutation pattern in the chimeric mice indicated dominant (or selective) proliferation of a clone containing rtI163V and rtA186T mutations plus LAMr under ETV treatment. Three-dimensional docking simulation indicated that rtA186T reduced the binding affinity of the HBV polymerase to ETV. CONCLUSIONS: VBT in this ETV-refractory patient is attributable to the novel ETV resistance mutations rtI163V and rtA186T. RtA186T was apparently responsible for ETV resistance but the selection of a clone with the double mutation plus LAMr suggests that rtI163V is required to sustain viral fitness.
BACKGROUND & AIMS: Entecavir (ETV) is approved for the treatment of chronic hepatitis B virus (HBV) infections, but the virus can acquire resistance to the drug. This requires lamivudine resistance mutations (LAMr) and at least one additional mutation. Here, we characterized two novel mutations, rtI163V and rtA186T, associated with viral breakthrough (VBT) in an ETV-refractory patient. METHODS:HBV from an ETV-refractory patient was sequenced, and newly identified mutations were inserted into a replication-competent clone by mutagenesis. Clones were analyzed for replication efficacy and susceptibility to ETV in vitro. Chimeric mice with human hepatocytes were inoculated with the patient's serum at VBT, and monitored for viral mutation pattern using a next-generation sequencing approach. RESULTS: RtI163V and rtA186T mutations were detected together with LAMr (rtL180M and rtM204V) at VBT. RtA186T plus LAMr reduced susceptibility to ETV more than 111.1-fold compared with the wild-type clone, while rtI163V plus LAMr resulted in a 20.4-fold reduction. RtA186T significantly reduced viral replication efficacy, while the rtI163V mutation rescued it. Interestingly, the viral mutation pattern in the chimeric mice indicated dominant (or selective) proliferation of a clone containing rtI163V and rtA186T mutations plus LAMr under ETV treatment. Three-dimensional docking simulation indicated that rtA186T reduced the binding affinity of the HBV polymerase to ETV. CONCLUSIONS: VBT in this ETV-refractory patient is attributable to the novel ETV resistance mutations rtI163V and rtA186T. RtA186T was apparently responsible for ETV resistance but the selection of a clone with the double mutation plus LAMr suggests that rtI163V is required to sustain viral fitness.
Authors: Katrin Schöneweis; Neil Motter; Pia L Roppert; Mengji Lu; Baoju Wang; Ingo Roehl; Dieter Glebe; Dongliang Yang; John D Morrey; Michael Roggendorf; Andrew Vaillant Journal: Antiviral Res Date: 2017-11-08 Impact factor: 5.970
Authors: Yongqing Tong; Bei Liu; Hui Liu; Hongyun Zheng; Jian Gu; Hang Liu; Min Lin; Yali Ding; Chunhua Song; Yan Li Journal: Medicine (Baltimore) Date: 2016-08 Impact factor: 1.889