Background
Despite substantial efforts to control human immunodeficiency virus-1 (HIV-1), acquired immunodeficiency syndrome (AIDS) is one of the most serious public health problem worldwide [
1]. At the end of 2021, there were 38.4 million people living with HIV/AIDS(PLWHA), and 28.7 million people were accessing antiretroviral therapy(ART) [
2]. World Health Organization(WHO) revised global recommendations that ART should be initiated in everyone living with HIV, regardless of CD4 + T lymphocytes counts in 2015 [
3]. Early ART can suppress viral replication, reduce opportunistic infections, and significantly reduce morbidity and mortality among PLWHA [
4‐
6]. Since HPTN 052 study published in interim form in 2011 [
7], the strategy of treatment as prevention had been generalized highly effective in stopping reducing the risk of HIV transmissions globally [
8,
9]. However, with the widespread use of ART, HIV drug resistance would lead to treatment failure in HIV infected patients, and even increase HIV transmission among individuals with risk behaviors and transmitted drug resistance(TDR) [
10,
11].
As the HIV epidemic continues to spread, it is necessary to locate the source and relationship of HIV transmission [
12,
13]. Genetic transmission network, which constructed based on the genetic information of people infected with HIV through gene distance between sequences, widely used in the study of early HIV cases detection, long-term monitoring of drug resistance and targeted precision intervention [
11,
14‐
17]. Real-time genetic transmission network have been improved and further combined with social transmission network to judge new transmission events, identify high-risk spreaders and potential infected individuals and evaluate the effect of intervention measures [
18‐
20]. Clustering analyses based on HIV drug resistance surveillance would rapidly detect and respond to emerging clusters of HIV infection to further reduce new transmissions, which is one pillar of the ending the HIV Epidemic plan in the United States [
21].
Ningbo is an eastern coastal city of China, nearby Shanghai, with an area of 9365 km
2 and a population of approximately 9.54 million people. We previously conducted an HIV tracing epidemiological survey among MSM in Ningbo City during 2018–2020 [
22]. This study aimed to examine the molecular epidemiology and TDR of HIV-1 and evaluated the transmission pattern among newly diagnosed PLWHA in Ningbo city during 2018–2021, which could contribute to the development of targeted precision interventions.
Methods
Study participants
A cross-sectional survey was conducted in Ningbo City between January, 2018 and December, 2021. The inclusion criteria were as follows: (1) aged 18 years and above; (2) newly diagnosed HIV-1 cases; (3) had no received ART before enrollment; (4) agreed to participate in the survey and signed an informed consent. After providing written informed consent, blood samples were collected for CD4 + T lymphocytes counts, drug resistance and HIV sequencing.
Laboratory tests
Blood specimens were sent to Ningbo CDC for below laboratory tests. CD4 + T lymphocytes counts determined in fresh whole blood by Flow cytometry (Becton Dickinson, NJ, USA). The remaining whole blood sample was centrifuged at 3000 rpm to produce blood plasma preserved in a -80℃ freezer. Viral RNA was extracted from blood plasma using Viral RNA Mini Kit (Tianlong, Suzhou, China) according to the manufacturer’s instructions. The obtained RNA samples were amplified using reverse transcription polymerase chain reaction (PCR) and nested PCR for the pol (HXB2: 2147–3462, encoding the protease gene and the first 300 codons of the reverse transcriptase gene) gene regions of HIV-1. After electrophoretic analysis, the amplified positive products were sent to Hangzhou Qingke Zixi Biotechnology Co. Ltd. for purification and gene sequencing.
Sequence analysis
The sequences were assembled and adjusted with Sequencher v5.0 software(Genecodes, Ann Arbor, MI). The assembled sequences were aligned, edited, and analyzed with Bio-Edit 7.2 software(Genecodes, Ann Arbor, MI). International reference sequences were selected and downloaded from the HIV databases of the Los Alamos National Laboratory (
http://hiv.lanl.gov). To identify the HIV-1 subtypes, the phylogenetic tree of Neighbor-joining was constructed using Mega 11.0 software. Bayesian Information Criterion (BIC) scores was performed to determine the evolutionary model. Considering the models with the lowest scores, the Kimura 2-parameter model with 1000 bootstrap replicates was determined to be the best fitting model [
23]. Sequences with possible intersubtype recombination were analyzed using the Recombination Identification Program (RIP) tool (
https://www.hiv.lanl.gov/content/sequence/RIP/RIP.html).
Drug resistance analysis
The sequences were submitted to the Stanford University HIV Resistance Database (
http://hivdb.stanford.edu/) to describe and interpret HIV-1 TDR. TDR level was classified according to the Stanford Penalty Score as high (60), intermediate (30–59), or low (15–29) to the following drugs: PI, Protease inhibitor; NRTI, Nucleoside reverse transcriptase inhibitor; NNRTI, Non-nucleoside reverse transcriptase inhibitor; INSTI, Integrase strand transfer inhibitors; NFV: Nelfinavir; ABC: Abacavir; AZT: Zidovudine; D4T: Stavudine; DDI: Didanosine; FTC: Emtricitabine; 3TC, Lamivudine; TDF: Tenofovir; DOR: Doravirine; EFV: Efavirenz; ETR: Etravirine; RPV: Rilpivirine. Drug resistance mutations were analyzed using the CRP tool (
http://cpr.stanford.edu/cpr.cgi).
Genetic transmission network analysis
The genetic transmission network was inferred based on the nucleotide genetic distance (GD) between HIV-1 pol sequences from each participant. Hyphy2.2.4 software was used to calculate the GD between pairings based on the TN93 model. The GD threshold that could identify the maximum number of clusters in the genetic network was chosen for analysis [
24]. Transmission partner was defined that the GD between two sequences was below the distance threshold. Cytoscape 3.6.0 software was used to construct HIV molecular transmission network diagram based on the optimal distance threshold of different gene distances and the number of molecular clusters. The GD threshold of 0.013 was chosen to identified the maximum number of clusters in the genetic network. A node in the network represents a case or sequence. The connection between two nodes was an edge or link. The number of node connections was the degree, indicating its importance in the network. The higher the degree, the higher the inferred communication relationship with more people, the higher the communication risk.The nucleotide sequences were submitted to GenBank under the accession numbers OR521366-OR522371.
Statistical analysis
Characteristics of all participants were described by categorical variables presented as absolute values and percentages. The demographic information and distribution of genotype were examined by chi-square tests. Univariate and multivariable forward stepwise logistic regression models were performed to examine risk factors associated with study participants within genetic transmission networks. The statistical significance was defined as P < 0.05. All statistical analyses were performed in SPSS (version 21.0, IBM, Armonk, NY, USA).
Discussion
The AIDS epidemic has a serious impact on health, economy and society of people all over the world. Meanwhile, TDR has become the focus of AIDS prevention and treatment. Furthermore, traditional epidemiological studies focus on the risk of individual HIV infection, with less consideration given to the impact of individual interactions on HIV transmission. Therefore, this study described TDR and genotype in newly diagnosed PLWHA in Ningbo city between 2018 and 2021, and further analyzed the HIV genetic network according to the GD. The results showed that the prevalence of TDR was 6.1% and 12 HIV-1 genotypes and 120 transmission clusters were identified, which revealed the complexity and diversity of the AIDS epidemic in Ningbo City.
Since China had adopted Free ART Program in 2003 and ‘Treat for all’ policy in 2016, free virus load test were implemented for all of the PLWHA receiving ART once per year [
25].However, free viral load test is usually offered to patients until a year after ART to assess the effectiveness of treatment. Due to lack of resistance monitoring and testing before ART, the prevalence of TDR rapidly rising in recent years [
26]. In our study, the prevalence of TDR was 6.1% and TDR-associated mutations to NNRTI was 7.9%, which was moderate (5–15%) according to the WHO definition [
27]. It was higher than the prevalence determined in Sichuan [
28], Guangdong [
29] and Jiangsu [
30] in China. In this study, we found that NVP and EFV showed high-level NNRTI resistance, with the most frequent mutations being K103N, E138A/G/Q and V179D/E. Additionally, in case of NRTI, the mutation M184MV/V can cause the highest level resistance to FTC and 3TC, which were consistent to the national study in China [
26]. Moreover, 0.7% of subjects carried PI resistance related the mutation M46L/I which conferred TDR to NFV. Currently, 3TC, EFV and NVP are widely-used free drugs in the first-line ART regimens in China [
31]. Long-term use of limited number of drugs facilitated the generation and spread of TDR. Therefore, the emergence of these mutations to 3TC, EFV and NVP should be closely monitored. In particular, drug-resistance testing prior to ART initiation should be performed to reduce spread of TDR. Furthermore, the introduction and development of longer-acting ART should be considered in China.
As is reported, HIV-1 genotype played an important role in HIV transmission and responses to ART [
32]. Our study showed that the major epidemic genotypes were CRF07_BC and CRF01_AE, which was consistent to the prior study [
33].And the distribution of genotype revealed significant differences according to gender, age, education level route of infection, CD4 + T lymphocytes counts and TDR. Currently, CRF08_BC transmission population has changed from intravenous drug users to heterosexuals in the highest risk groups in China [
34]. CRF08_BC appeared to be a distinctive strain in Ningbo city. CRF08_BC was also the predominant genotype among individuals aged more than 40 years, middle school or less educational level, heterosexually transmitted individuals in our study. The prevalence of TDR was higher than other genotypes among individuals infected with CRF08_BC. This finding revealed urgent measures should be taken to interrupt the spread of CRF08_BC, particularly among elderly individuals. CRF55_01B, which was first detected in MSM, had quickly spread to heterosexuals, according to our results and earlier study [
35]. Besides, CRF55_01B may have a higher transmission risk than CRF01_AE and CRF07_BC [
36]. Thus, we should continue to concern the prevention and control of CRF55_01B.
We constructed HIV-1 genetic transmission network analysis to understand the transmission characteristic among PLWHA in Ningbo city. Our study showed that 444 individuals could be segregated into 120 transmission clusters. After adjusting for confounders, we observed that age and genotypes were significantly related to clustering. GD < 0.005 might be more appropriate for distinguishing rapidly growing clusters [
37]. In this study, individuals aged over 60 years old were more likely to enter the transmission network and the proportions of links with GD < 0.005 were higher than other age teams, indicated that they increased the risk of local HIV transmission and should be monitored as a priority [
38]. Moreover, compared with CRF01_AE, CRF07_BC were prone to form larger clusters and the largest cluster with CRF07_BC was grown rapid, which homosexual transmission was the major route of transmission. Furthermore, most of CRF07_BC sequences were connected to smaller GD. We found clustering rate was significantly increased between 2018 and 2021. It suggested that comprehensive intervention should be designed for key rapid growth clusters, especially for those with multiple links [
39]. In addition, we identified that 34.4% of TDR cases were included in 11 clusters, mostly composed of heterosexuals. However, heterosexual contacts present small clusters, indicating a low level of forward transmission, but still represent a high proportion of TDR transmission in Ningbo city. These results suggested that local government should continue monitoring TDR transmission to conduct targeted interventions and control epidemics in a timely fashion [
40].
Limitation of this study
There are a few inherent limitations in this study. Firstly, the sample composition may not be representative all PLWAH in Ningbo city. Secondly, molecular transmission cluster only represented a group of highly associated infected individuals, and could not reflect direct transmission relationship. Thirdly, as integrase was not included in the amplified pol sequence, this study did not identify INSTI-related drug resistance mutations. Finally, with limited time and funds, it was based on sequence analysis of the pol gene, which may not holistically represent the epidemic.
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