Uchida Yoshihito, Kouyama Jun-Ichi, Naiki Kayoko, Sugawara Kayoko, Inao Mie, Imai Yukinori, Nakayama Nobuaki, Mochida Satoshi
Department of Gastroenterology and Hepatology, Faculty of Medicine, Saitama Medical University, Saitama, Japan.
Hepatol Res. 2017 Dec;47(13):1397-1407. doi: 10.1111/hepr.12882. Epub 2017 Apr 19.
The therapeutic efficacy of daclatasvir/asunaprevir was inferior in patients with non-structural protein 5A (NS5A)-R30Q mutant hepatitis C virus strains at baseline, compared with those with wild-type strains, even though the half maximal effective concentration of NS5A inhibitors was lower in mutant strains than in wild-type strains. In these patients, R30Q and Y93H mutant strains, which are highly resistant to NS5A inhibitors, emerged at virologic failure. The mechanisms involved in such virologic failure were examined.
The NS5A resistance-associated variants were evaluated using direct sequencing in 88 patients with virologic failure after daclatasvir/asunaprevir therapy. In patients with R30Q and Y93H mutant strains at virologic failure, the original strains responsible for the multiple mutations were evaluated using baseline sera samples.
L28 M and/or R30Q, L31 M, and Y93H mutant strains were found in 36, 46, and 65 patients, respectively, and R30Q and Y93H mutants were seen in 23 patients. R30Q mutant strains were detected in baseline sera samples available from eight of these patients; cycling-probe real-time polymerase chain reaction showed that the Y93H mutant strain to total strain ratio was less than 1% in four patients and ranged from 1% to 98% in four patients. A phylogenetic tree analysis undertaken after deep sequencing revealed that the R30Q and Y93H mutant strains originated from minor strains with both mutations at baseline, even in patients with a ratio of less than 1%.
In patients with genotype 1b hepatitis C virus strains with R30Q mutation, minor strains with Y93H as well as R30Q mutations contributed to the development of virologic failure after treatment with NS5A inhibitors.
与基线时感染野生型丙肝病毒株的患者相比,基线时感染非结构蛋白5A(NS5A)-R30Q突变丙肝病毒株的患者接受达卡他韦/阿舒瑞韦治疗的疗效较差,尽管NS5A抑制剂的半数最大效应浓度在突变株中低于野生型株。在这些患者中,对NS5A抑制剂高度耐药的R30Q和Y93H突变株在病毒学失败时出现。研究了导致这种病毒学失败的机制。
使用直接测序法评估88例接受达卡他韦/阿舒瑞韦治疗后病毒学失败的患者中的NS5A耐药相关变异。对于病毒学失败时出现R30Q和Y93H突变株的患者,使用基线血清样本评估导致多重突变的原始毒株。
分别在36例、46例和65例患者中发现了L28M和/或R30Q、L31M和Y93H突变株,23例患者中出现了R30Q和Y93H突变。在其中8例患者可获得的基线血清样本中检测到R30Q突变株;循环探针实时聚合酶链反应显示,4例患者中Y93H突变株与总毒株的比例小于1%,4例患者中该比例为1%至98%。深度测序后进行的系统发育树分析显示,即使在比例小于1%的患者中,R30Q和Y93H突变株也起源于基线时同时具有这两种突变的次要毒株。
在感染基因型1b丙肝病毒株且发生R30Q突变的患者中,同时具有Y93H和R3Q突变的次要毒株导致了NS5A抑制剂治疗后病毒学失败的发生。
