Abstract
Recombinant HIV-1 genomes identified in three or more epidemiological unrelated individuals are defined as circulating recombinant forms (CRFs). CRFs can further recombine with other pure subtypes or recombinants to produce secondary recombinants. In this study, a new HIV-1 intersubtype CRF, designated CRF159_01103, isolated from three men who have sex with men with no epidemiological linkage, was identified in Baoding city, Hebei Province, China. CRF159_01103 was derived from CRF103_01B and CRF01_AE. Bayesian molecular clock analysis was performed on the CRF01-AE and CRF103_01B regions of CRF159_01103. The time of origin of CRF159_01103 was predicted to be 2018–2019, indicating that it is a recent recombinant virus. The emergence of CRF159_01103 has increased the complexity of the HIV-1 epidemic in Hebei Province.
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Introduction
As a result of the high mutation, recombination and replication rates of HIV-1, its recombinant forms are becoming increasingly complex.1 The coinfection and recombination of different HIV-1 subtypes create many opportunities for the emergence of new recombinant forms. To date, more than 150 circulating recombinant forms (CRFs) and numerous unique recombinant forms (URFs) have been identified by the analysis of near-full-length genomes (NFLGs) globally. Furthermore, a new CRF will emerge if more than three URFs with the same recombinant structure are found in different areas with no epidemiological linkage. Compared with other countries in the world, China has a high proportion of HIV-1 recombinant strains1.
In Hebei, CRF01_AE, CRF07_BC and subtype B were the dominant HIV-1 subtypes, similar to the dominant subtypes across the whole of China2,3 .However, recently, many other subtypes such as CRFs_0107, URFs_0107, CRFs_01B and URFs_01B have been continually identified in Hebei among the sexually-active population, especially among men who have sex with men (MSM). For example, CRF80_0107, CRF103_01B and CRF123_0107 were detected circulating in the MSM population in 2019, 2020 and 2022, respectively4,5,6.
Baoding is the second largest city with HIV/AIDS cases in Hebei Province, and MSM are the most affected population7. Over the past three years, two new CRFs (CRF103_01B and CRF123_0107) and many URFs have been reported in Baoding5,6. However, no novel second-generation recombinant CRFs were confirmed among the minor subtypes. In this study, we identified a new HIV-1s-generation circulating recombinant CRF159_01103 composed of CRF103_01B and CRF01_AE among MSM in Baoding, Hebei Province, and analyzed its evolutionary history.
Results
The NFLG length sizes for BD093A, BD246A and BDL104 were 8498, 8896 and 8879 nt, respectively, spanning from the gag gene to the partial gene region of the 3ʹ-long terminal repeat (LTR) (position based on HXB2 numbering: 665–9658). Maximum-likelihood (ML) phylogenetic tree based on NFLGs showed that BD093A, BD246A and BDL104 formed an unusual monophyletic cluster with a bootstrap value of 100% (Fig. 1a), separate from other reference subtypes, indicating a potential novel CRF. We further analyzed the gene maps by bootscanning (Fig. 1b) and jpHMM (Fig. 1c) and found that these three NFLGs had the same recombination patterns comprising CRF103_01B and CRF01_AE. They contained one CRF01_AE fragment inserted into the CRF103_01B backbone (Fig. 1c). This backbone was divided into three subregions, including two CRF103_01B subregions and one CRF01_AE region: I CRF103_01B (HXB2, 790–1015 nt), II CRF01_AE (HXB2, 1016–2008 nt), and III CRF103_01B (HXB2, 2009–9685 nt). Their parental linkages were confirmed using subregion phylogenetic analysis (Fig. 2a). In summary, according to the standardized naming recommendations for HIV-1, the novel recombinant lineage was designated CRF159_01103. The gene sequences of BD093A, BD246A and BDL104 were deposited in the GenBank database under accession numbers PP056116, PP056117 and PP056118, respectively.
To determine the time of origin of CRF159_01103, Bayesian molecular clock analysis was performed using the CRF01_AE region (region II) and CRF103_01B region (region III) of CRF159_01103 to estimate the duration of time of the most recent common ancestor (tMRCA). TempEst was employed to ascertain the sufficiency of temporal signals in the subsets for the estimation of molecular clock phylogenies. Time phylogenies for the CRF01_AE and CRF103_01B subsets were constructed in BEAST 1.8.4, utilizing an uncorrelated log-normal relaxed clock, a Bayesian skygrid coalescent model, and a GTR + G4 substitution model. As shown in Fig. 2b and c, the tMRCA of the CRF01_ AE and CRF103_01B gene segments within CRF159_01103 emerged in the years 2019 and 2018–2019, respectively. This confirmed that CRF159_01103 is a recent recombinant virus.
Discussion
In the 1990s, CRF01_AE was introduced into China and was detected among the sexually-active population8. Following its spread, it became the predominant epidemic subtype together with CRF07_BC among MSM in China9. CRF01_AE is the most frequent constituent of URFs found in Hebei, China10. One study reported that CRF103_01B originated from the MSM population in Beijing around March 2002 to April 2006 and continued to spread at a low level among the MSM population, then being transmitted to the wider population in northern China through heterosexual contact11. The CRF103_01B strain was first identified through NFLG analysis among MSM in the cities of Baoding and Shijiazhuang, Hebei Province, China, in 2020. In 2016, Lu12 showed that four CRF01_AE/B recombinant strains contained the same breakpoints as CRF103_01B in the gag gene and partial pol gene region, which suggested that CRF103_01B had been circulating among MSM before the identification of CRF103_01B. In this study, the dual infection of CRF103_01B and CRF01_AE among MSM resulted in the emergence of the second-generation recombinant CRF159_01103, suggesting that CRF103_01B rapidly spread. To our knowledge, CRF159_01103 is the third new HIV-1 CRF discovered in Hebei Province, China. Multiple studies worldwide have shown that HIV-1 recombinant strains have significantly enhanced viral adaptability and are more prone to produce drug-resistant site mutations13,14,15,16,17. In addition, due to the differences in HIV-1 recombinant forms between different regions, understanding HIV-1 variants and diversity at the region level can effectively formulate and develop vaccines, and may bring the greatest benefits to specific countries and regions18,19. Therefore, continuous monitoring the occurrence and spread of HIV-1 recombinant strains is of great practical significance for the prevention and control of HIV/AIDS.
In conclusion, we identified a new HIV-1s-generation CRF159_01103 composed of CRF103_01B and CRF01_AE. It is estimated that CRF159_01103 originated in the years 2018–2019. The emergence of CRF159_01103 indicates that the local HIV-1 epidemic is complex, especially among MSM.
Materials and methods
We obtained plasma samples from three HIV-1-infected MSM (BD093A, BD246A and BDL104) in Baoding city, Hebei Province, China. Epidemiological linkage was not observed according to the baseline epidemiological data for these three individuals and their basic epidemiological information are showed in Table 1.
HIV-1 viral RNA extraction, NFLG amplification, sequencing and sequence assembly were completed according to previously published methods20. Standard reference sequences for HIV-1 subtypes were downloaded from the HIV database (www.hiv.lanl.gov/content/index). Multiple sequence comparisons and manual editing with ClustalW were then performed using Bio-Edit 7.0 software. The NFLG phylogenetic tree was constructed by the FastTree V2.1.10 based on the approximately maximum likelihood method with the general time reversible (GTR) model and adjusted with Figtree V1.4.4.Then, online jpHMM and SimPlot 3.5.1 software were used for similarity mapping and Bootscan analysis to identify the recombination breakpoints. Finally, to better understand the evolutionary history of CRF159_01103, the Bayesian phylogenetic approach was performed in BEAST 1. 8.4.
Statement
This experimental protocol was approved by the Ethics Committee of Baoding People’s Hospital (protocol number: 2019-03), and all the methods in this study were performed in accordance with the approved guidelines.
Ethical issues
All analyses were performed on de-identified datasets to protect participants’ anonymity. Informed consent was waived by Baoding People’s Hospital Ethics committee because no participant`s privacy such as name was involved in this study.
Data availability
The gene sequences of BD093A, BD246A and BDL104 were deposited in the GenBank database under accession numbers PP056116, PP056117 and PP056118, respectively.
References
Bbosa, N., Kaleebu, P. & Ssemwanga, D. HIV subtype diversity worldwide. Curr. Opin. HIV AIDS 14(3), 153–160. https://doi.org/10.1097/COH.0000000000000534 (2019).
Yuan, H. et al. Evolutionary characteristics and genetic transmission patterns of predominant HIV-1 subtypes among men who have sex with men in China. Int. J. Infect. Dis. 90, 125–131. https://doi.org/10.1016/j.ijid.2019.10.035 (2020).
Fan, W. et al. HIV-1 genetic characteristics and pre-treatment drug resistance among newly diagnosed population in Baoding, Hebei Province. Chin. J. Microbiol. Immunol. 42(02), 88–93. https://doi.org/10.3760/cma.j.cn112309-20210814-00272 (2022).
Zhang, Y. et al. Characterization of a novel HIV-1 circulating recombinant form (CRF80_0107) among men who have sex with men in China. AIDS Res. Hum. Retrovir. 35(4), 419–423. https://doi.org/10.1089/AID.2018.0226 (2019).
Zhou, J. et al. Genome sequence of a novel HIV-1 circulating recombinant form (CRF103_01B) identified from Hebei Province, China. AIDS Res. Hum. Retrovir. 36(3), 234–241. https://doi.org/10.1089/AID.2019.0196 (2020).
Xing, Y. et al. Identification of a new HIV-1 intersubtype circulating recombinant form (CRF123_0107) in Hebei Province province, China. J. Infect. 84(3), e36–e39 (2022).
Shi, P. et al. Molecular transmission networks and pretreatment drug resistance among individuals with acute HIV-1 infection in Baoding, China. PLoS One 16(12), e0260670. https://doi.org/10.1371/journal.pone.0260670 (2021).
Li, X. et al. Tracing the epidemic history of HIV-1 CRF01_AE clusters using near-complete genome sequences. Sci. Rep. 7(1), 4024. https://doi.org/10.1038/s41598-017-03820-8 (2017).
Li, X. et al. Nationwide trends in molecular epidemiology of HIV-1 in China. AIDS Res. Hum. Retrovir. 32(9), 851–859. https://doi.org/10.1089/AID.2016.0029 (2016).
Lu, X. et al. HIV-1 molecular epidemiology among newly diagnosed HIV-1 individuals in Hebei, a low HIV prevalence province in China. PLoS One 12(2), e0171481. https://doi.org/10.1371/journal.pone.0171481 (2017).
Dai, M. et al. Genetic characteristics of a novel HIV-1 recombinant lineage (CRF103_01B) and its prevalence in northern China. Virus Genes 59(4), 643–650. https://doi.org/10.1007/s11262-023-01994-0 (2023).
Lu, X. et al. Recombinant patterns of nine novel HIV-1 recombinant strains identified in Hebei Province, China. AIDS Res. Hum. Retrovir. 32(5), 475–479. https://doi.org/10.1089/AID.2016.0005 (2016).
Tarosso, L. F. et al. Short communication: HIV type 1 subtype BF leads to faster CD4+ T cell loss compared to subtype B. AIDS Res. Hum. Retrovir. 30(2), 190–194. https://doi.org/10.1089/AID.2012.0243 (2014).
Iwabu, Y. et al. Superinfection of defective human immunodeficiency virus type 1 with different subtypes of wild-type virus efficiently produces infectious variants with the initial viral phenotypes by complementation followed by recombination. Microbes Infect. 10(5), 504–513. https://doi.org/10.1016/j.micinf.2008.01.012 (2008).
Liu, Y. et al. Natural presence of V179E and rising prevalence of E138G in HIV-1 reverse transcriptase in CRF55_01B viruses. Infect. Genet. Evol. 77, 104098. https://doi.org/10.1016/j.meegid.2019.104098 (2020).
Liu, Y. et al. Natural presence of the V179D and K103R/V179D mutations associated with resistance to nonnucleoside reverse transcriptase inhibitors in HIV-1 CRF65_cpx strains. BMC Infect. Dis. 20(1), 313. https://doi.org/10.1186/s12879-020-05007-5 (2020).
Banin, A. N. et al. Near full genome characterization of HIV-1 unique recombinant forms in Cameroon reveals dominant CRF02_AG and F2 recombination patterns. J. Int. AIDS Soc. 22(7), e25362. https://doi.org/10.1002/jia2.25362 (2019).
Hemelaar, J. et al. Country level diversity of the HIV-1 pandemic between 1990 and 2015. J. Virol. 95(2), e01580-e1620. https://doi.org/10.1128/JVI.01580-20 (2020).
Hemelaar, J. et al. Global and regional molecular epidemiology of HIV-1, 1990–2015: A systematic review, global survey, and trend analysis. Lancet Infect. Dis. 19(2), 143–155. https://doi.org/10.1016/S1473-3099(18)30647-9 (2019).
Yang, X. et al. Genetic characterization of a novel HIV-1 CRF01_AE/CRF07_BC recombinant form found among men who have sex with men in Baoding City, Hebei Province, China. Arch. Virol. 167(11), 2395–2402. https://doi.org/10.1007/s00705-022-05563-y (2022).
Acknowledgements
The authors thank all staff involved in this study. We thank Kate Fox, PhD, from Liwen Bianji (Edanz) (https://www.liwenbianji.cn/) for editing the English text of a draft of this manuscript.
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W.F., Z.Z., H.S., J.J., P.S. and S.C., X.L. wrote the main manuscript text and Z.Z. prepared figures 1–2. All authors reviewed the manuscript.
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Fan, W., Zhang, Z., Shi, H. et al. Identification of a new HIV-1 circulating recombinant form (CRF159_01103) derived from CRF103_01B and CRF01_AE in Hebei Province, China. Sci Rep 14, 13182 (2024). https://doi.org/10.1038/s41598-024-64156-8
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DOI: https://doi.org/10.1038/s41598-024-64156-8
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