Analysis of temporal virus evolution and intra-host diversity in long-term non-progressors by bulk next-generation sequencing
Rongfeng Chen, Jianwen Mo, Yuanting Li, Yuting Wu, Feirong Chen, Qinglian Qin, Hong Yang, Changping Xie, Kang Li, Yuyuan Huang, Wudi Wei, Zongxiang Yuan, Li Ye, Hao Liang, Junjun Jiang
Journal:Microbiology Spectrum
IF:3.8
DOI:10.1128/spectrum.02227-25
PMID:
Published:2026-03-30
research field:免疫学进化生物学传染病学HIV发病机制下一代测序病毒学
Abstract
Long-term non-progressors (LTNPs) provide key insights into HIV-1 pathogenesis and potential functional cure strategies. Whether viral evolution persists in LTNPs remains debated. Previous studies have mainly focused on partial HIV-1 genome fragments using single-gene amplification. In contrast, our study employs near full-length bulk next-generation sequencing (NGS) to investigate viral quasispecies evolution, diversity, and CTL-associated mutations at the nucleotide level, offering new perspectives on intra-host viral dynamics. Blood samples of two LTNPs were collected at four time points over a approximately 2 years. The HIV-1 near full-length genome of plasma RNA and proviral DNA were amplified, and bulk NGS was performed. Consensus sequences were used for phylogenetic analysis and divergence calculation. Intra-host single-nucleotide variants (iSNVs), amino acid variations, and mutations in CTL epitopes were also analyzed. Both LTNPs displayed limited evolution over time, as identified from the phylogenetic tree and genetic distance, with higher divergence observed in DNA sequences than in RNA sequences. Evolutionary divergence was observed between HIV-1 plasma RNA and proviral DNA sequences. Intra-host diversity indices, including the number of iSNVs and Shannon entropy, also indicated greater diversity in DNA sequences than in RNA sequences. A considerable number and high frequency of mutations in CTL were identified consistently both in DNA and in RNA sequences, which showed slight frequency changes over time. These findings support the limit HIV-1 evolution in LTNPs and greater intra-host diversity of proviral DNA than plasma RNA. Our findings also suggest substantial, high-frequency, and sustained mutations in CTL epitopes in LTNPs with a relatively high level of viral replication despite optimal immune control.
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