High genetic diversity of HIV-1 pol region and molecular transmission networks among people living with HIV-1 in Haikou, South China, 2005–2022

High genetic diversity of HIV-1 pol region and molecular transmission networks among people living with HIV-1 in Haikou, South China, 2005–2022

Abstract Background Hainan is experiencing a continuous increase in newly diagnosed HIV-1 infections, highlighting the need for a comprehensive understanding of local transmission dynamics. This study aims to elucidate the genetic diversity and potential HIV-1 molecular transmission networks among p...

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Bibliographic Details
Main Authors: Dee Yu, Mu Li, Liangjia Wei, Kaokao Zhu, Rongjing Zhang, Tong Luo, Yi Ning, Hao Liang, Jing Zhang, Li Ye, Bingyu Liang
Format: Article
Language:English
Published: BMC 2025-07-01
Series:BMC Infectious Diseases
Subjects:
HIV-1
Subtype
Molecular epidemiology
Transmission network
Centrality analysis
Online Access:https://doi.org/10.1186/s12879-025-11184-y
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Summary:Abstract Background Hainan is experiencing a continuous increase in newly diagnosed HIV-1 infections, highlighting the need for a comprehensive understanding of local transmission dynamics. This study aims to elucidate the genetic diversity and potential HIV-1 molecular transmission networks among people living with HIV-1 in Hainan, China. Methods We used the HIV-TRACE to infer the transmission dynamics of HIV-1 at a 1.5% gene distance threshold. The role of HIV-1 diversity in transmission networks was assessed through node influence measurement and centrality analysis. Results A total of 986 pol sequences were included, with CRF07_BC (43.71%) and CRF01_AE (37.12%) emerging as the predominant subtypes. Of these, 586 (59.43%) were clustered into the transmission networks, forming 83 clusters with 155 nodes having high transmission network scores (HTNS). CRF07_BC (adjusted odds ratio, aOR: 1.585, 95%CI: 1.189– 2.113) and CRF65_cpx (aOR: 9.513, 95%CI: 3.694– 24.499) were more likely to cluster in networks and exhibit nodal centrality than CRF01_AE. The CRF65_cpx (88.46%) were more likely to be HTNS (aOR: 57.302, 95%CI:16.869– 194.643) than CRF07_BC. Conclusion This study highlights the high genetic diversity of HIV-1 and its central role in transmission networks, advocating for targeted prevention strategies and community engagement for high-risk transmission populations, particularly focusing on subtypes CRF07_BC and CRF65_cpx.
ISSN:1471-2334

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