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Abstract
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INTRODUCTION: Adefovir plus entecavir (ADV+ETV) rescue therapy in ETV-resistant patients with chronic hepatitis B virus (HBV) infection is suboptimal in some patients. This study aims to elucidate the evolutionary characteristics of drug-resistant HBV mutants and their association with clinical responses in such patients. METHODOLOGY: Thirty-seven ETV-resistant patients were enrolled, among whom twelve had an inadequate virological response to ADV+ETV rescue therapy. The clonal sequence ((3) 20 clones/sample) of HBV reverse transcriptase gene was performed to identify the resistance mutations. Phenotypic analysis was performed to evaluate the replication capacity and drug susceptibility of the mutants. RESULTS: ETV-resistant mutants were continuously detected in 10 of the 12 patients, and multidrug-resistant (MDR) mutants, including a novel strain (rtL180M+A181V+T184A+S202G+M204V), were detected in two patients. Seven of the 12 patients who subsequently received tenofovir (TDF)-based therapy for 38 (23-60) months all achieved undetectable HBV DNA after treatment, and ETV-resistant mutants converted to wild-type in the four patients' samples. In contrast, the other five patients who did not achieve an adequate virological response had remaining of ETV-resistant mutants. The novel MDR strain exhibited multiple resistances to LAM, ADV, and ETV, and 11.2-fold lower susceptibility to TDF. CONCLUSIONS: This study is the first to demonstrate that MDR HBV mutations may contribute to the poor efficacy of ADV+ETV combination therapy in ETV-resistant patients. Moreover, a novel MDR HBV strain was identified. Our results indicate that a TDF-based rescue therapy would be effective for the treatment of the refractory cases. |
