Genetic and temporal dynamics of human immunodeficiency virus type 1 CRF07_BC in Xinjiang, China

Characteristics of Subtype and Molecular Transmission Networks among Newly Diagnosed HIV-1 Infections in Patients Residing in Taiyuan City, Shanxi Province, China, from 2021 to 2023

The HIV-1 pandemic, spanning four decades, presents a significant challenge to global public health. This study aimed to understand the molecular transmission characteristics of newly reported HIV infections in Taiyuan, Shanxi Province, China, to analyze the characteristics of subtypes and the risk factors of the transmission network, providing a scientific basis for precise prevention and intervention measures. A total of 720 samples were collected from newly diagnosed HIV-1 patients residing in Taiyuan between 2021 and 2023. Sequencing of partial genes of the HIV-1 pol gene resulted in multiple sequence acquisitions and was conducted to analyze their subtypes and molecular transmission networks. Out of the samples, 584 pol sequences were obtained, revealing 17 HIV-1 subtypes, with CRF07_BC (48.29%), CRF01_AE (31.34%), and CRF79_0107 (7.19%) being the dominant subtypes. Using a genetic distance threshold of 1.5%, 49 molecular transmission clusters were generated from the 313 pol gene sequences. Univariate analysis showed significant differences in the HIV transmission molecular network in terms of HIV subtype and household registration (p < 0.05). Multivariate logistic regression analysis showed that CRF79_0107 subtype and its migrants were associated with higher proportions of sequences in the HIV transmission network. These findings provide a scientific foundation for the development of localized HIV-specific intervention strategies.

Unique profile of predominant CCR5-tropic in CRF07_BC HIV-1 infections and discovery of an unusual CXCR4-tropic strain

CRF07_BC is one of the most prevalent HIV-1 strains in China, which contributes over one-third of the virus transmissions in the country. In general, CRF07_BC is associated with slower disease progression, while the underlying mechanisms remain unclear. Our study focused on envelope proteins (Env) and its V3 loop which determine viral binding to co-receptors during infection of cells. We studied a large dataset of 3,937 env sequences in China and found that CRF07_BC had a unique profile of predominantly single CCR5 tropism compared with CCR5 and CXCR4 dual tropisms in other HIV-1 subtypes. The percentages of the CXCR4-tropic virus in B (3.7%) and CRF01_AE (10.4%) infection are much higher than that of CRF07_BC (0.1%), which is supported by median false-positive rates (FPRs) of 69.8%, 25.5%, and 13.4% for CRF07_BC, B, and CRF01_AE respectively, with a cutoff FPR for CXCR4-tropic at 2%. In this study, we identified the first pure CXCR4-tropic virus from one CRF07_BC-infected patient with an extremely low CD4⁺T cell count (7 cells/mm³). Structural analysis found that the V3 region of this virus has the characteristic 7T and 25R and a substitution of conserved “GPGQ” crown motif for “GPGH”. This study provided compelling evidence that CRF07_BC has the ability to evolve into CXCR4 strains. Our study also lay down the groundwork for studies on tropism switch, which were commonly done for other HIV-1 subtypes, for the long-delayed CRF07_BC.

Enhanced Transmissibility and Decreased Virulence of HIV-1 CRF07_BC May Explain Its Rapid Expansion in China

HIV-1 CRF07_BC is one of the most common circulating recombinant forms (CRFs) in China and is becoming increasingly prevalent especially in HIV-infected men who have sex with men (MSM). The reason why this strain expanded so quickly in China remains to be defined. We previously observed that individuals infected with HIV-1 CRF07_BC showed slower disease progression than those infected with HIV-1 subtype B or CRF01_AE. CRF07_BC viruses carry two unique mutations in the p6Gag protein: insertion of PTAPPE sequences downstream of the original Tsg101 binding domain, and deletion of a seven-amino-acid sequence (30PIDKELY36) that partially overlaps with the Alix binding domain. In this study, we confirmed the enhanced transmission capability of CRF07_BC over HIV-1 subtype B or CRF01_AE by constructing HIV-1 transmission networks to quantitatively evaluate the growth rate of transmission clusters of different HIV-1 genotypes. We further determined lower virus infectivity and slower replication of CRF07_BC with aforementioned PTAPPE insertion (insPTAP) and/or PIDKELY deletion (Δ7) in the p6Gag protein, which in turn may increase the pool of people infected with CRF07_BC and the risk of HIV-1 transmission. These new features of CRF07_BC may explain its quick spread and will help adjust prevention strategy of HIV-1 epidemic. IMPORTANCE HIV-1 CRF07_BC is one of the most common circulating recombinant forms (CRFs) in China. The question is why and how CRF07_BC expanded so rapidly remains unknown. To address the question, we explored the transmission capability of CRF07_BC by constructing HIV-1 transmission networks to quantitatively evaluate the growth rate of transmission clusters of different HIV-1 genotypes. We further characterized the role of two unique mutations in CRF07_BC, PTAPPE insertion (insPTAP) and/or PIDKELY deletion (Δ7) in the p6Gag in virus replication. Our results help define the molecular mechanism regarding the association between the unique mutations and the slower disease progression of CRF07_BC as well as the quick spread of CRF07_BC in China.

Analysis of the Driving Factors of Active and Rapid Growth Clusters Among CRF07_BC-Infected Patients in a Developed Area in Eastern China

Background

The purpose of this study was to research the molecular transmission and genetic evolutionary characteristics among CRF07_BC-infected patients in a developed area in Eastern China.

Methods

Plasma samples from newly diagnosed HIV-1-positive patients from 2015–2018 and basic demographic and epidemiological information were obtained. Pol sequences from CRF07_BC-infected patients were selected for phylogenetic, molecular transmission network, and Bayesian evolutionary analyses.

Results

Pol sequences were successfully obtained from 258 samples of CRF07_BC. Phylogenetic analysis revealed 2 distinct lineages: lineage 1 (66.3%, 171/258), primarily from men who have sex with men (MSM) and some heterosexual individuals, and lineage 2 (33.7%, 87/258), primarily from heterosexual individuals. Under an optimal genetic distance of 0.01 substitutions/site, 163 individuals (63.2%, 163/258) formed 23 groups comprising 6 clusters and 17 dyads in the networks. A distinctly large and rapidly growing cluster (C1) containing 105 individuals was identified, in which MSM with ≥4 links had quite a high transmission risk (low educational background, active sexual behavior, low sexual protection awareness, etc.). According to Bayesian analyses, most C1 clades formed from 2005 to 2009, most of which were closely geographically related to CRF07_BC epidemic strains from Anhui province.

Conclusions

Here, we elucidated the local transmission characteristics and epidemic pattern of HIV-1 CRF07_BC, revealing that MSM (especially with ≥4 links) may be a significant driver in the formation of active and rapid growth networks in regional CRF07_BC epidemics. Thus, unique region– and risk group–specific transmission network analysis based on a molecular approach can provide critical and insightful information for more effective intervention strategies to limit future HIV-1 transmission.

Surveillance of HIV-1 drug resistance in Xinjiang: high prevalence of K103N in treatment-naïve individuals

To identify transmitted and acquired HIV-1 drug resistance mutations in Xinjiang, China, we collected the peripheral blood of 50 treated and 50 treatment-naïve HIV-1-infected individuals in this region. We successfully amplified 36 reverse transcriptase and 42 protease gene sequences of HIV-1 from 51 individuals and identified mutations associated with resistance to reverse transcriptase (RT) and protease (PR) inhibitors (RTIs and PIs) according to Stanford Drug Resistance Database. Among the drug-treated individuals, the results showed that K103N in the RT region was the most frequent mutation, found in 67% (6/9) of the cases, followed by M184V with 56% (5/9). Five individuals had both nucleoside and non-nucleoside reverse transcriptase inhibitor resistance mutations after more than 12 months of treatment. Among the untreated individuals, 33% (9/27) were found to harbor drug resistance mutations in the RT gene. K103N occurred at the highest rate, accounting for 22% (6/27), followed by P225H (7%) and Y188L (4%). Neither of the two groups showed any major resistance mutations to PIs. Our study revealed that the prevalence of drug resistance was relatively high in Xinjiang and that K103N occurred at the highest rate. These results suggest that it is important to carry out HIV drug resistance testing, especially for the K103N mutation in the RT region, before and during the treatment process. This study may help to guide ART strategies in the Xinjiang region.

The infection staging and profile of genotypic distribution and drug resistance mutation among the human immunodeficiency virus-1 infected blood donors from five Chinese blood centers, 2012-2014

The increasing complexity and diversity of the human immunodeficiency virus-1 (HIV-1) infections challenge the disease control and anti-retrovirus treatment in China. The infection stages and molecular characteristics of HIV-1 from infected Chinese blood donors were examined to shed light on the HIV genotype distribution and the status of drug resistance mutations (DRMs) in the changing HIV epidemic in China. Western blot (WB) confirmed HIV-1 positive plasma samples were collected from blood donors at five Chinese blood centers from April 16, 2012, through June 30, 2014. The HIV infection stages were determined using the Lag-avidity assay. HIV Pol regions including whole protease and partial reverse transcriptase (RT) were amplified and sequenced to establish the profile of genotype distribution and drug resistance mutations (DRMs). Viral loads were determined using the ROCHE COBAS system. Of the 259 HIV-1 positive samples tested by the Lag-avidity assay, 23.6% (61/259) were identified as recent infections. A total of 205 amplified sequences displayed the following genotype distributions: circulating recombinant form (CRF) 07_BC (61.5%), CRF08_BC (8.3%), CRF01_AE (20%), B (6.3%), and 01B (3.9%). There was no significant difference in genotype distribution between recent and long-term infections. 31 DRMs were identified from 27 samples including four protease inhibitors (PIs) accessory DRMs, two PIs major DRMs (M46I), two nucleoside RT inhibitors DRMs (K219R and K70Q), and 23 nonnucleoside RT inhibitors DRMs. 27 samples had DRMs, yielding a drug resistance prevalence of 13.2% (27/205). Our findings provide important information for developing strategies for comprehensive HIV control and improving anti-retroviral treatment in China.

Profiling the neutralizing antibody response in chronically HIV-1 CRF07_BC-infected intravenous drug users naïve to antiretroviral therapy

Characterizing neutralizing antibody (NAb) responses in individuals infected with diverse HIV-1 strains is necessary to reveal the novel targets for regional preventive and therapeutic strategies development. We evaluated the prevalence, breadth, and potency of NAb responses in 98 CRF07_BC-infected individuals using a large, multi-subtype panel of 30 tier 2-3 Env-pseudotyped viruses. Furthermore, we compared the neutralization pattern of CRF07_BC-infected people with that of subtype B’-infected individuals in China. Of the 98 plasma samples tested, 18% neutralized more than 80% of viruses in the panel, and 53% neutralized more than 50%, suggesting the presence of broadly NAbs in these individuals. A preferential intra-subtype neutralization of CRF07_BC was found. Notably, CRF07_BC-infected individuals generated higher neutralization titers against intra-subtype viruses than subtype B’-infected individuals with longer infection length. However, subtype B’-infected individuals mounted broader neutralization responses against inter-subtype viruses than CRF07_BC infection with shorter infection time, indicating the transition from narrow autologous to broad heterologous neutralization over time. Neutralization activity of the top six plasmas from each cohort was attributable to IgG fraction, and half of them developed CD4 binding site antibody reactivity. Heatmap analysis identified three statistically robust clusters of plasmas that offer valuable resources for further in-depth virological and immunological study.

Genotypes and transmitted drug resistance among treatment-naive HIV-1-infected patients in a northwestern province, China: trends from 2003 to 2013

Background

Transmitted drug resistance (TDR) reduces the efficacy of initial antiretroviral treatment and has become a public health concern. Little information is available regarding the genetic diversity of HIV-1 and the prevalence of TDR among treatment-naïve patients in a northwestern province of China since the implementation of national free antiretroviral therapy (ART).

Methods

Blood samples from 372 HIV-1 treatment-naive patients were collected between 2003 and 2013 in Shaanxi province. Viral RNA was extracted for nested PCR, and phylogenetic reconstruction and recombination analyses were performed to characterize patterns of the HIV-1 subtypes. Genotypic drug resistance testing was performed using an in-house assay to determine trends in the prevalence of HIV-1 transmitted drug resistance.

Results

Multiple genotypes were identified among the patients in Shaanxi, including B (25.0%), C (0.3%), G (0.3%), and CRF01_AE (39.2%), CRF07_BC (32.7%), CRF08_BC (0.8%), CRF55_01B (1.1%), and URFs (0.6%). The subtypes were associated with the transmission routes (χ² = 77.113, p<0.01). In this study, a low baseline CD4⁺ T cell count and a high viral load were found among CRF01_AE-infected patients compared with patients who were infected with non-CRF01_AE (p<0.01) through sexual transmission; however, the CRF01_AE subtype was not associated with a low baseline CD4⁺ T cell count or a high viral load in Chinese patients infected through blood transmission (p = 0.249). The overall TDR rate in this population was 4.4% between 2003 and 2013. A univariate logistic regression model revealed that a low CD4 T cell count (≤100 cells/µL) was associated with the development of drug-resistant strains.

Conclusion

Our work revealed diverse HIV-1 subtype distributions in Shaanxi province. We identified a low and stable TDR time trend among ART-naive patients. These findings enhance our understanding of HIV-1 genetic diversity and provide some guidelines for the improvement and implementation of a comprehensive public health strategy of HIV-1 TDR prevention.

Phylogenetic and temporal dynamics of human immunodeficiency virus type 1B in China: four types of B strains circulate in China

To investigate the origin and evolutionary history of the spread of HIV-1 subtype B in China, a total of 409 sequences of pol gene sampled from 1994 to 2012 in 29 provinces across China was subjected to phylogenetic and Bayesian molecular clock analyses. The study reveals that subtype B strains in China are genetically diverse and can be classified into four distinct subgroups, namely B' (Thai-B), BJ-B (Beijing-B), Pan-B (Pandemic-B), and TW-B (Taiwan-B), according to the origin of the sequences. The BJ-B and TW-B are reported for the first time. Phylogeographic analysis reveals that B' exhibits a nationwide, transprovincial distribution, and is found in 21 provinces in China in this study, whereas the Pan-B, BJ-B, and TW-B lineages are restricted to particular regions. From the same common ancestor of B', there arise two subclusters in which sequences from Yunnan occupy the basal position. The times of the most recent common ancestors (tMRCAs) of B' and BJ-B are estimated to be 1983.6 (1975.9-1990.3) and 1995.3 (1989.6-2000.3), respectively. The skyline plot profile reveals an exponential decrease in median number of effective infections of subtype B in China from 1994 to 2009. The existence of four types of B clades also indicates distinct transmission networks of subtype B, originating from different introduction events at different time points. The data presented here offer a new perspective on the epidemic of HIV-1 subtype B in China.

HIV-1 genotypic diversity and prevalence of drug resistance among treatment naïve HIV-infected individuals in Chengdu of China

AIDS is becoming one of leading cause of death among infectious diseases in China. There has been rapidly increasing epidemic of HIV/AIDS in Chengdu since 2003. In order to investigate HIV-1 subtype distribution, drug resistance-associated mutations as well as drug resistance prevalence among treatment naïve HIV-infected individuals in Chengdu of China, 244 HIV confirmed-reactive serum samples were collected from 2007 to 2010, including 165 obtained from blood centers and 79 obtained from hospitals. HIV-1 pol including whole protease, and partial reverse transcriptase genes was amplified, sequenced, and analyzed for subtype determination and drug resistance profile description. A total of 159 amplified sequences which were acquired from 98 sample obtained at blood centers and 61 samples obtained at hospitals had the following genotype distribution: G (0.6%), F1 (0.6%), A1 (0.6%), B (1.9%), circulating recombinant form (CRF) 01_AE (42.8%), CRF07_BC (49.1%), and CRF08_BC (4.4%). There were 12.2 and 24.6 % samples obtained from blood centers and hospitals, respectively, that harbored drug resistance-associated mutations, and the prevalence of drug resistance among all cases was 1.3%. This was the first report of HIV molecular surveillance among treatment naïve HIV-infected individuals in Chengdu. Our findings were believed to be helpful on contribution to comprehensive HIV control program in China.

Phylogenetic and temporal dynamics of human immunodeficiency virus type 1 CRF01_AE in China

To explore the epidemic history of HIV-1 CRF01_AE in China, 408 fragments of gag gene sequences of CRF01_AE sampled in 2002-2010 were determined from different geographical regions and risk populations in China. Phylogenetic analysis indicates that the CRF01_AE sequences can be grouped into four clusters, suggesting that at least four genetically independent CRF01_AE descendants are circulating in China, of which two were closely related to the isolates from Thailand and Vietnam. Cluster 1 has the most extensive distribution in China. In North China, cluster 1 and cluster 4 were mainly transmitted through homosexuality.The real substance of the recent HIV-1 epidemic in men who have sex with men(MSM) of North China is a rapid spread of CRF01_AE, or rather two distinctive natives CRF01_AE.The time of the most recent common ancestor (tMRCA) of four CRF01_AE clusters ranged from the years 1990.9 to 2003.8 in different regions of China. This is the first phylogenetic and temporal dynamics study of HIV-1 CRF01_AE in China.

DNA prime-protein boost using subtype consensus Env was effective in eliciting neutralizing antibody responses against subtype BC HIV-1 viruses circulating in China

Previously, we have shown that DNA prime-protein boost is effective in eliciting neutralizing antibodies (NAb) against randomly selected HIV-1 isolates. Given the genetic diversity of HIV-1 viruses and the unique predominant subtypes in different geographic regions, it is critical to test the DNA prime-protein boost approach against circulating viral isolates in key HIV endemic areas. In the current study, the same DNA prime-protein boost vaccine was used as in previous studies to investigate the induction of NAb responses against HIV-1 clade BC, a major subtype circulating in China. A codon optimized gp120-BC DNA vaccine, based on the consensus envelope (Env) antigen sequence of clade BC, was constructed and a stable CHO cell line expressing the same consensus BC gp120 protein was produced. The immunogenicity of this consensus gp120-BC was examined in New Zealand White rabbits by either DNA prime-protein boost or protein alone vaccination approaches. High levels of Env-specific antibody responses were elicited by both approaches. However, DNA prime-protein boost but not the protein alone immune sera contained significant levels of NAb against pseudotyped viruses expressing HIV-1 BC Env antigens. Furthermore, high frequencies of CD4 binding site-targeted antibodies were found in the DNA prime- protein boost rabbit sera indicating that the positive NAb may be the result of antibodies against conformationally sensitive epitopes on HIV-1 Env. The findings support that DNA prime-protein boost was effective in eliciting NAb against a key HIV-1 virus subtype in China. This result may lead to the development of regional HIV vaccines through this approach.

A comprehensive mapping of HIV-1 genotypes in various risk groups and regions across China based on a nationwide molecular epidemiologic survey

Background

China is experiencing a dynamic HIV/AIDS epidemic. While serology based surveillance systems have reported the spread of HIV/AIDS, detailed tracking of its transmission in populations and regions is not possible without mapping it at the molecular level. We therefore conducted a nationwide molecular epidemiology survey across the country.

Methods

HIV-1 genotypes were determined from 1,408 HIV-positive persons newly diagnosed in 2006. The prevalence of each genotype was estimated by weighting the genotype’s prevalence from each province- and risk-specific subpopulation with the number of reported cases in the corresponding subgroups in that year.

Results

CRF07_BC (35.5%), CRF01_AE (27.6%), CRF08_BC (20.1%), and subtype B' (9.6%) were the four main HIV-1 strains in China. CRF07_BC and CRF08_BC were the primary drivers of infection among injecting drug users in northeastern and southeastern China, respectively, and subtype B' remained dominant among former plasma donors in central China. In contrast, all four strains occurred in significant proportions among heterosexuals nationwide, pointing to an expansion of the HIV-1 epidemic from high-risk populations into the general population. CRF01_AE also replaced subtype B as the principal driver of infection among men-who-have-sex-with-men.

Conclusions

Our study provides the first comprehensive baseline data on the diversity and characteristics of HIV/AIDS epidemic in China, reflecting unique region- and risk group-specific transmission dynamics. The results provide information critical for designing effective prevention measures against HIV transmission.

Tracing the origin and history of HIV-1 subtype B' epidemic by near full-length genome analyses

OBJECTIVE

To investigate the origin and evolutionary history of HIV-1 subtype B' responsible for the epidemic among injecting drug users (IDUs), former plasma donors (FPDs) and the subsequent heterosexual transmission in China.

METHODS

A total of 33 sequences of subtype B' near full-length genomes (NFLGs) sampled during 1998-2009 in 11 provinces across China were determined. The NFLGs were subjected to Bayesian molecular clock analyses to estimate the time of the most recent common ancestors (tMRCAs) and to reconstitute the time-space process of subtype B' dissemination in China.

RESULTS

The study revealed that subtype B' strains in China can be classified into two distinct subgroups: a monophyletic B' cluster (B'CN*) consisting of subtype B' sequences mainly from FPDs and heterosexuals across China outside of Yunnan; B' strains circulating among IDUs in Yunnan (B'YN) that occupy the most basal position of B' clade in China. The tMRCAs of B'YN and B'CN* were estimated to be 1985 (1982-1987) and 1989 (1987-1991), respectively. The skyline plot profile revealed the explosive nature of subtype B' expansion in central China in the mid-1990s.

CONCLUSION

Our results suggest that subtype B' epidemics among FPDs and heterosexuals in inland China were most likely originated from a single founding subtype B' strain that had been circulating among IDUs in Yunnan province. Yunnan province plays a pivotal role in bridging the preexisting subtype B' epidemics in south-east Asia with the subsequent epidemic among FPDs and heterosexuals in inland China.

The HIV-1 epidemic: low- to middle-income countries

Low- to middle-income countries bear the overwhelming burden of the human immunodeficiency virus type 1 (HIV-1) epidemic in terms of the numbers of their citizens living with HIV/AIDS (acquired immunodeficiency syndrome), the high degrees of viral diversity often involving multiple HIV-1 clades circulating within their populations, and the social and economic factors that compromise current control measures. Distinct epidemics have emerged in different geographical areas. These epidemics differ in their severity, the population groups they affect, their associated risk behaviors, and the viral strains that drive them. In addition to inflicting great human cost, the high burden of HIV infection has a major impact on the social and economic development of many low- to middle-income countries. Furthermore, the high degrees of viral diversity associated with multiclade HIV epidemics impacts viral diagnosis and pathogenicity and treatment and poses daunting challenges for effective vaccine development.

Genetic diversity of HIV type 1 isolated from newly diagnosed subjects (2006-2007) in Beijing, China

The purpose of this study was to investigate the genetic diversity of HIV-1 circulating in Beijing and its molecular epidemiological linkages with regard to risk factors of viral transmission. HIV-1 from plasma samples of 280 diagnosed individuals (2006-2007) was characterized. The gene fragments of gag, pol, and env from the infected plasma samples were amplified by reverse transcriptase polymerase chain reaction (RT-PCR), sequenced, and phylogenetically analyzed. From the 280 plasma samples analyzed, a total of 496 sequences were successfully amplified from the gag, pol, and env genes. Nine HIV-1 group M subtypes or CRF including A1, B, B', C, CRF01_AE, CRF02_AG, CRF06_cpx, CRF07_BC, and CRF08_BC, and six new B'/C recombinants were identified. CRF07_BC was found to be the most dominant subtype (32.5%) followed by CRF01_AE (25.0%), B (20.0%), and B' (15.7%). The data from this study indicate the existence of multiple HIV-1 subtypes or CRFs in Beijing and may be proven useful in the development of vaccine candidates in the future.

The human immunodeficiency virus-1 genotype diversity and drug resistance mutations profile of volunteer blood donors from Chinese blood centers

BACKGROUND

The global human immunodeficiency virus (HIV)-1 epidemic is becoming increasingly diverse and complex. Molecular epidemiologic characteristics were studied for HIV-1-infected blood donors from five Chinese regions to determine genotype diversity and drug resistance mutations (DRMs) profile.

STUDY DESIGN AND METHODS

HIV-1 confirmed-reactive serum samples were collected from 172 blood donors from five blood centers during 2007 to 2010. HIV-1 Pol including whole protease and partial reverse transcriptase genes was amplified, sequenced, and analyzed for the subtype determination and drug resistance profile description.

RESULT

A total of 113 amplified sequences including 82 from Kunming blood center and 31 from four other blood centers had the following genotype characteristics: G (0.9%), B (2.7%), circulating recombinant form (CRF) 01_AE (32.7%), CRF07_BC (22.1%), and CRF08_BC (41.6%). Female donors represent 45.1% of all cases and 63.9% cases with DRMs. The prevalence of samples with potential low or higher resistance among Chinese blood donors is 4.4%.

CONCLUSION

HIV-1 infection in Chinese blood donors is genetically diverse and the subtype distribution reflects that from the high-risk populations. Our results support continuous molecular epidemiologic surveillance for HIV-1 in blood donors as a part of a comprehensive HIV control program.

Phylogeographic analyses reveal a crucial role of Xinjiang in HIV-1 CRF07_BC and HCV 3a transmissions in Asia

Background

China faces an increasing prevalence of two HIV-1 circulating recombinant forms (CRFs) 07_BC and 08_BC. Both CRFs_BC were previously demonstrated to originate in Yunnan and spread to Liaoning from Yunnan via injection drug use (IDU) in China. Supposing it is true, we are unable to answer why only CRF07_BC, rather than both CRFs_BC together, was transmitted to Xinjiang.

Methodology/Principal Findings

We investigated the phylogeography of CRF07_BC and CRF08_BC using multiple HIV-1 genomic regions with Bayesian phylogeography method. Phylogenetic reconstructions showed that all CRF07_BC sequences were divided into two clades, Yunnan and Xinjiang, and all strains from other regions of mainland China clustered within the Xinjiang clade. Significant geographic diffusion links of Xinjiang with other regions (including Liaoning, Beijing, Jiangsu and Guangdong) were supported by Bayes factor tests. The temporal dynamics analyses showed that CRF07_BC spread from Xinjiang to Liaoning in 1996.10, and to Jiangsu in 2000.9. The analyses of CRF08_BC not only confirmed the previous conclusion on temporal and spatial dynamics of CRF08_BC, but also indicated that the CRF08_BC strains from Guangdong and Shanghai originated from Yunnan. The analyses of HCV 3a showed that it was introduced into Xinjiang in the early 1980s, and spread from Xinjiang to Yunnan in 1990.10 and to Jiangsu in 1999.2, and further from Yunnan to Guangxi in 1995.3. The temporal and spatial dynamics of HCV 3a were similar to some extent to that of HIV-1 CRF07_BC and/or CRF08_BC, suggesting a possible association in migration patterns between HCV and HIV-1 through IDU. In addition, HCV 3a spread from Xinjiang to Pakistan, implying a drug trafficking route linking them.

Conclusions/Significance

Xinjiang, as the most important transfer station for drug trafficking from Golden Crescent to other regions of China, plays a very crucial role in the transmission of viruses (e.g., HIV-1 and HCV) through IDU in Asia.

Sequence analysis of the gag-pol gene of human immunodeficiency virus type 1 of intersubtype (B'/C) recombinant strain in Beijing, China

Little is known about the molecular and biological properties of HIV-1 intersubtype B'/C in Beijing. To fill the gap, we sequenced and analyzed the gag-pol genes from 39 HIV-1 B'/C recombinant infectors in Beijing, China during 2007. The results show that 36 CRF07_BC and 2 CRF08_BC isolates have a structural profile identical or nearly identical to CRF07_BC or CRF08_BC according to sequences in the gag-pol regions. The CRF07_BC circulating in injecting drug users (IDUs) and heterosexuals forms a diverse phylogenetic tree and most isolates from homosexuals cluster together. However, all the B'/C recombinant strains were remarkable for their low interpatient diversity in gag-pol genes (3.1, 3.0, and 2.2% for isolates from IDUs, heterosexuals, and homosexuals, respectively). We identified I7V, E91G, N242T, and K361R in the gag gene and R290I (HXB2 positions) in the pol gene as signature amino acid substitutions characteristic of HIV-1 CRF07_BC from the Beijing lineage. In addition, one new B'/C recombinant was detected. These results may contribute to an understanding of HIV-1 in Beijing.