Jabara Cassandra B, Hu Fengyu, Mollan Katie R, Williford Sara E, Menezes Prema, Yang Yan, Eron Joseph J, Fried Michael W, Hudgens Michael G, Jones Corbin D, Swanstrom Ronald, Lemon Stanley M
Department of Biology, The University of North Carolina at Chapel Hill, Chapel Hill, North Carolina, USA UNC Center for AIDS Research, The University of North Carolina at Chapel Hill, Chapel Hill, North Carolina, USA.
UNC Center for AIDS Research, The University of North Carolina at Chapel Hill, Chapel Hill, North Carolina, USA Division of Infectious Diseases, Department of Medicine, The University of North Carolina at Chapel Hill, Chapel Hill, North Carolina, USA.
Antimicrob Agents Chemother. 2014 Oct;58(10):6079-92. doi: 10.1128/AAC.03466-14. Epub 2014 Aug 4.
HIV coinfection accelerates disease progression in chronic hepatitis C and reduces sustained antiviral responses (SVR) to interferon-based therapy. New direct-acting antivirals (DAAs) promise higher SVR rates, but the selection of preexisting resistance-associated variants (RAVs) may lead to virologic breakthrough or relapse. Thus, pretreatment frequencies of RAVs are likely determinants of treatment outcome but typically are below levels at which the viral sequence can be accurately resolved. Moreover, it is not known how HIV coinfection influences RAV frequency. We adopted an accurate high-throughput sequencing strategy to compare nucleotide diversity in HCV NS3 protease-coding sequences in 20 monoinfected and 20 coinfected subjects with well-controlled HIV infection. Differences in mean pairwise nucleotide diversity (π), Tajima's D statistic, and Shannon entropy index suggested that the genetic diversity of HCV is reduced in coinfection. Among coinfected subjects, diversity correlated positively with increases in CD4(+) T cells on antiretroviral therapy, suggesting T cell responses are important determinants of diversity. At a median sequencing depth of 0.084%, preexisting RAVs were readily identified. Q80K, which negatively impacts clinical responses to simeprevir, was encoded by more than 99% of viral RNAs in 17 of the 40 subjects. RAVs other than Q80K were identified in 39 of 40 subjects, mostly at frequencies near 0.1%. RAV frequency did not differ significantly between monoinfected and coinfected subjects. We conclude that HCV genetic diversity is reduced in patients with well-controlled HIV infection, likely reflecting impaired T cell immunity. However, RAV frequency is not increased and should not adversely influence the outcome of DAA therapy.
HIV合并感染会加速慢性丙型肝炎的疾病进展,并降低基于干扰素治疗的持续抗病毒应答(SVR)。新型直接抗病毒药物(DAA)有望实现更高的SVR率,但预先存在的耐药相关变异(RAV)的选择可能会导致病毒学突破或复发。因此,RAV的治疗前频率可能是治疗结果的决定因素,但通常低于能够准确解析病毒序列的水平。此外,尚不清楚HIV合并感染如何影响RAV频率。我们采用了一种准确的高通量测序策略,比较了20例单纯感染和20例合并感染且HIV感染得到良好控制的受试者中HCV NS3蛋白酶编码序列的核苷酸多样性。平均成对核苷酸多样性(π)、Tajima's D统计量和香农熵指数的差异表明,合并感染时HCV的遗传多样性降低。在合并感染的受试者中,多样性与抗逆转录病毒治疗中CD4(+) T细胞的增加呈正相关,提示T细胞应答是多样性的重要决定因素。在测序深度中位数为0.084%时,很容易识别出预先存在的RAV。Q80K对simeprevir的临床应答有负面影响,在40名受试者中的17名中,超过99%的病毒RNA编码该变异。40名受试者中有39名鉴定出了Q80K以外的RAV,大多数频率接近0.1%。单纯感染和合并感染的受试者之间RAV频率没有显著差异。我们得出结论,在HIV感染得到良好控制的患者中,HCV遗传多样性降低,可能反映了T细胞免疫受损。然而,RAV频率并未增加,不应对DAA治疗结果产生不利影响。