Determination of gag and env subtypes of HIV-1 detected among injecting drug users (IDUs) in Manipur, India: evidence for intersubtype recombination

Analysis of HIV-1 subtypes and drug resistance mutations in people who inject drugs in Aizawl and nearby districts of Mizoram, India

Over the last decade, there has been a steady increase in HIV-1 prevalence in Mizoram, India. Importantly, this increase in HIV-1 prevalence is not only limited to the key population groups such as female sex workers (FSWs) or people who inject drugs (PWID), and has been witnessed in general population as well. Injecting drug use has long been one of the key drivers of HIV-1 epidemic across the north-eastern states of India. In this study, using HIV-1 pol gene region sequences from Aizawl and adjoining districts, we examined the HIV-1 subtypes, recombinant forms, drug resistance mutations and also the spatiotemporal dynamics of the potential unique recombinant forms. In our dataset, the dominant subtype was HIV-1 subtype C (94.91%). We could also identify the presence of CRF01_AE (1.69%) and BC recombinant forms (3.39%). Drug resistance mutation analysis revealed that resistance against non-nucleoside reverse transcriptase inhibitors was most common in the sequences having any resistance mutations. Evolutionary analysis of unique BC recombinants estimated the most recent common ancestor of these sequences around 2004-2005 and them having an ancestry of United States of America (USA) origin.

Molecular epidemiology of HIV-1 among the HIV infected people of Manipur, Northeastern India: Emergence of unique recombinant forms

According to the Joint National Programme on HIV/AIDS (UNAIDS), the northeastern region of India has the highest HIV prevalence in the country. This study was conducted to determine the current HIV-1 molecular epidemiology of Manipur, a state in northeast India. Blood samples from HIV-1 seropositive subjects were collected between June 2011 and February 2014. The partial regions of HIV-1 genes; pol and tat-vpu-env were independently amplified, sequenced, analyzed, and genotyped. Based on all sequences generated from 110 samples using pol and/or tat-vpu-env gene, the overall HIV-1 genotypes distribution of Manipur was as follows: 65.45% (72/110) subtype C, 32.73% (36/110) unique recombinant forms (URFs), and 1.82% (2/110) subtype B. The distribution of HIV-1 genotypes among the risk groups was: heterosexual: 58.33% (35/60) subtype C, 38.33% (23/60) URFs, and 3.34% (2/60) subtype B; intravenous drug users (IDUs): 85.36% (35/41) subtype C, 9.76% (4/41) URFs, and 4.88% (2/41) subtype B; mother to child (MTC): 50% (3/6) URFs and 50% (3/6) subtype C and blood transfusion: 100% (3/3) subtype C. The findings for the first time revealed the emergence of URFs of HIV-1 in Manipur which is predominant among the sexual and MTC risk groups as compared to IDUs. Taking together, this study illustrated that Manipur is the "recombinant hotspot of HIV" of India. The results will provide the clinical importance for continuous monitoring of HIV-infections in order to design appropriate prevention measures to limit the spread of new HIV infections.

Overview of HIV molecular epidemiology among people who inject drugs in Europe and Asia

HIV strains continuously evolve, tend to recombine, and new circulating variants are being discovered. Novel strains complicate efforts to develop a vaccine against HIV and may exhibit higher transmission efficiency and virulence, and elevated resistance to antiretroviral agents. The United Nations Joint Programme on HIV/AIDS (UNAIDS) set an ambitious goal to end HIV as a public health threat by 2030 through comprehensive strategies that include epidemiological input as the first step of the process. In this context, molecular epidemiology becomes invaluable as it captures trends in HIV evolution rates that shape epidemiological pictures across several geographical areas. This review briefly summarizes the molecular epidemiology of HIV among people who inject drugs (PWID) in Europe and Asia. Following high transmission rates of subtype G and CRF14_BG among PWID in Portugal and Spain, two European countries, Greece and Romania, experienced recent HIV outbreaks in PWID that consisted of multiple transmission clusters including subtypes B, A, F1, and recombinants CRF14_BG and CRF35_AD. The latter was first identified in Afghanistan. Russia, Ukraine, and other Former Soviet Union (FSU) states are still facing the devastating effects of epidemics in PWID produced by A_FSU (also known as IDU-A), B_FSU (known as IDU-B), and CRF03_AB. In Asia, CRF01_AE and subtype B (Western B and Thai B) travelled from PWID in Thailand to neighboring countries. Recombination hotspots in South China, Northern Myanmar, and Malaysia have been generating several intersubtype and inter-CRF recombinants (e.g. CRF07_BC, CRF08_BC, CRF33_01B etc.), increasing the complexity of HIV molecular patterns.

Molecular characterization of unique intersubtype HIV type 1 A1/C recombinant strain circulating in Pune, India

An increasing number of circulating recombinant forms (CRFs) and unique recombinant forms (URFs) all over the world has necessitated being vigilant about new recombinants. Since the first report of a recombinant virus with an A1/C mosaic in 1998 more and more B/C and A/C recombinant viruses are being reported from India. Here we report the identification and characterization of a unique HIV-1 A1/C recombinant circulating in Western India. Analysis of the full-length genome using RIP, SimPlot, and jpHMM@Gobics has confirmed its mosaic structure with insertion of subtype A1 in the backbone of subtype C at three positions: gag-pol (1973±15-2617±47), pol-vif (4879±37-5582±32), and gp41 (8437±106-8811±8); however, RIP and SimPlot showed one more small insertion in integrase (4343-4519). Phylogenetic analysis confirmed that the recombinant virus has an insertion of clade A1 in the backbone of subtype C, which has come from Indian subtype C.

Emergence of a unique recombinant form of HIV-1 from Manipur (India)

BACKGROUND

The AIDS epidemic in Manipur, India, manifests unique features, having co-circulation of B and C HIV-1 subtypes along with recombinant forms. Manipur has the highest incidence of HIV-1 infection compared to the other states of India, but limited information is available regarding the full-length sequence of HIV-1 recombinants.

OBJECTIVES

To characterize the near full-length genome of a novel recombinant HIV-1 strain from an injecting drug user of Manipur.

STUDY DESIGN

Viral RNA, extracted from the plasma of a male injecting drug user aged 35, was diagnosed with HIV-1 infection. Near full-length genome was amplified by polymerase chain reaction using primer walking approach. Phylogenetic relationships were determined with neighbor-joining trees. The recombination break points were detected using boot scan and Simplot analyses.

RESULTS

This recombinant predominantly had subtype C genome and exhibited mosaic structures with subtype B insertions at three different positions of HIV-1 genome. Simplot analysis of near full-length genome sequence from the recombinant HIV-1 strain, MAN86 exhibited similarity with the sequence of C.IN.93.93IN905 in its subtype C backbone, while the subtype B insertions showed resemblance with the sequence of B.TH.99.99(TH)_C1416.

CONCLUSIONS

This study confirms the presence of a unique recombinant HIV-1 strain, emerging as a result of recombination between HIV-1 strains from India and Thailand.

Near full-length genomic characterization of a HIV type 1 BC recombinant strain from Manipur, India

Genetic complexity of HIV-1 is brought about by recombination between HIV-1 subtypes which leads to the development of epidemiologically significant founder strains. In the present study, the near full-length genome sequence of an HIV-1 isolate from an injecting drug user of Manipur (India) was determined, which evidenced the presence of a novel HIV-1 BC recombinant strain. Near full-length genome was amplified by polymerase chain reaction using primer walking approach. The recombination break points were detected using bootscan and simplot analyses. This isolate exhibited a mosaic structure consisting of subtype C backbone with subtype B insertions at the upstream of pol gene (3026-3259) and the downstream of env gene which spanned till the nef gene (8183-8961). Phylogenetic relationships determined with neighbor-joining trees, revealed that the subtype C sequences clustered with sequences from Indian subtype C HIV-1 strains, and the subtype B sequences clustered with HIV-1 subtype B strains from Thailand. This finding may create a complex scenario of HIV-1 epidemic among the injecting drug users of Manipur in near future.

Antiretroviral drug resistance mutations among treated and treatment-naive patients in Pakistan: diversity of the HIV type 1 pol gene in Pakistan

Pakistan is experiencing a growing HIV epidemic. Antiretroviral drugs (ARV) have been smuggled into the country and available without prescription since the early 1990s, but are now provided free of cost by the government. We assessed the prevalence of HIV-1, drug resistance, and subtype distributions. Blood specimens were collected from HIV-1-infected participants registered in Sindh Province on dry blood spot (DBS) cards in 2008. Pol, protease, and partial reverse transcriptase regions were sequenced after reverse transcriptase PCR (RT-PCR). HIV-1 subtype was assigned by phylogenetic analysis. Primary drug resistance was analyzed by the Calibrated Population Resistance (CPR) tool using the Stanford Surveillance Drug Resistance Mutation (SDRM) major mutation list. Out of 100 blood samples collected, 42 were suitable for testing. Out of 42, 11 were ARV-receiving and 31 ARV-naive patients. Among them, 24 were injection drug users (IDUs), four immigrants, two hijras (male transvestites), two men who have sex with men (MSM), four prisoners, one female sex workers, two spouses of HIV-infected persons, and four from the general population. ARV resistance among naive patients was 2/31 (6.5%) and 36.4% (4/11) among ARV-experienced patients making an overall resistance of 14.2%. HIV-1 subtype A1 was the predominant subtype found in 35/42 (83.3%) followed by CRF35_AD and C, 6.5% each. Subtype D and G were found in one (2.4%) each. A significant proportion of Pakistani HIV patients has ARV drug resistance. Physicians treating patients should consider the magnitude of drug resistance while selecting regimens, and address drug adherence aggressively.

Genetic Characterization of HIV-1 Strains Among the Injecting Drug Users in Nagaland, India

Global HIV-1 surveillance has led to the detection of its new recombinant forms. This study was carried out for the first time to elucidate the genetic characterization and evolutionary relationship of HIV-1 strains among injecting drug users of Nagaland, northeastern India. A total of 156 injecting drug users participated in this study voluntarily. Among them 18 were seropositive for HIV-1 (11.5%).The Heteroduplex Mobility Assay (HMA) of HIV-1 based on p24-p7 region of gag gene and C2-V3 region of env gene revealed 11 samples to be subtype C (gag/env), 1 sample as subtype B (gag/env) and 6 samples to be recombinants between subtype C and B. Also, the sequencing and phylogenetic analysis of gag (p24-p7) and env (C2-V3) genes from eighteen samples of Nagaland IDUs with different global HIV-1 strains showed the presence of Indian, African, Thai and their recombinant forms. However, more recombinant strains based on different genomic regions of HIV-1 were detected using Multiregional Hybridization Assay (MHA) where 8 out of 18 samples were found to be recombinants between subtype C and B. Thus, multiregional hybridization assay along with heteroduplex mobility assay can serve as an efficient tool in the characterization of recombination pattern among the newly emerging HIV-1 recombinants.

Study of HIV-1 subtypes in serodiscordant couples attending an integrated counselling and testing centre in Mumbai using heteroduplex mobility analysis and DNA sequencing

AIMS

To determine the prevalent subtypes of HIV-1 in serodiscordant couples.

SETTING

Integrated Counselling and Testing Centre (ICTC), Department of Microbiology.

STUDY DESIGN

Prospective pilot study.

PARTICIPANTS

Thirty HIV-1 serodiscordant couples.

INCLUSION CRITERIA

a) Documentation of HIV-1 infection in one partner and seronegative status in the other, current history of continued unprotected sexual activity within the partnership, demonstration that they have been in a partnership for at least 1 year and are not currently on highly active antiretroviral therapy HAART; b) willingness of both partners to provide written informed consent including consent to continued couple counselling for 3 months.

MATERIALS AND METHODS

HIV-1 subtyping was carried out by heteroduplex mobility analysis (HMA) by amplifying env region; and DNA sequencing by amplifying gag region.

RESULTS

HIV-1 env gene was amplified successfully in 10/30 samples; gag gene, in 25/30 samples; and both env and gag gene were amplified successfully in 5/30 samples. HIV-1 subtype C was detected from 21 samples; subtype B, from 7; and subtype A, from 2. Sample from 1 positive partner was detected as subtype C by env HMA and subtype B by gag sequencing.

CONCLUSION

HIV-1 subtype C was found to be the predominant subtype of HIV-1 in serodiscordant couples attending our ICTC, followed by HIV-1 subtype B and HIV-1 subtype A, respectively. DNA sequencing was found to be the most reliable method for determining the subtypes of HIV-1.

Molecular characterization of tat gene and long terminal repeat region of human immunodeficiency virus type-1 detected among the injecting drug users (IDUs) of Manipur, India: identification of BC recombinants

The tat gene of human immunodeficiency virus type-1 (HIV-1) is responsible for the initiation and elongation of viral transcription through the LTR (long terminal repeat) transactivation process. Our study included structural and functional analyses of the tat gene and LTR region of 35 injecting drug users (IDUs) from Manipur (a north-eastern state in India and a potential source of HIV-1 recombinants) in order to search for the recombinants and variation in the transactivation process if any due to recombination. Analysis showed prevalence of subtype C with few BC recombinants for the tat gene showing identical recombination breakpoints. Phylogenetic analysis of the LTR region of those IDU strains showed strong resemblance to Indian subtype C forming a completely separate cluster from the other global C LTR sequences. The TAR element (transactivator response region) in all the LTR sequences was fairly conserved. Further study of the transactivation rate of the C and BC tat for the Manipur C LTR showed almost equal transactivity in both the cases. This is the first report of characterisation of tat gene and LTR region of HIV-1 samples among IDUs from north-eastern India.

HIV infection in India: epidemiology, molecular epidemiology and pathogenesis

The year 1986 saw first case of HIV infection as well as first report of AIDS case in India. Since then the epidemic has spread throughout the country.In the recent years there is evidence of epidemic being stabilized with decrease in new infections reported from some parts of the country. The absolute number of HIV infections in the country is expected to be close to 2.5 million and National AIDS Control Programme, phase III is geared to contain the epidemic. HIV viruses circulating in India predominantly belong to HIV-1 subtype C. However, there have been occasional reports of HIV-1 subtype A and B. Matter of concern is reports of A/C and B/C mosaic viruses that are being reported from different parts of the country. The data on HIV drug resistance from India is rather limited. Most of the studies have shown that the virus strains from drug naive patients do not show significant level of drug resistance mutations. The few immunological studies in Indian patients show that the Indian HIV infected patients show both HIV-specific CTL responses as well as neutralizing antibody response. Mapping of CTL epitopes showed that while Indian patients identify same regions of Gag antigen as recognized by South African subtype C infected patients, some regions are uniquely recognized by Indian patients. There are very few studies on host genetic factors in India in context with HIV infection.However there are evidences reported of association of host genetic factors such as HLA types and haplotypes and HIV disease.

Polymorphism, recombination, and mutations in HIV type 1 gag-infecting Peruvian male sex workers

HIV genetic diversity in female sex workers (FSW) has been previously described in Peru; however this information is not yet available for male sex workers (MSW). Therefore, purified peripheral blood mononuclear cell DNA from 147 HIV-infected subjects identified as MSW and FSW was used to amplify a 460-bp fragment corresponding to the p24-p7 region of the gag gene. The PCR product was digested with restriction enzymes to identify genetic polymorphism. Later, a random group of samples (n = 19) was sequenced to perform phylogenetic analysis, intragenic recombination analysis, and deleterious mutations leading to a nonfunctional protein in conservative regions of the Gag protein. RFLP analysis revealed 11 genetic variants for AluI and five for MspI. A group of nonsex workers (NSW) used for comparison showed different RFLP genetic variant distributions. Of interest, nine cases of mixed genetic variants were observed for MSW, one case for FSW, and none for NSW. Phylogenetic analysis revealed that all HIV-1 species were subtype B. Intragenic recombination analysis showed a B/C recombination case from an FSW (boostrap = 1000; p value < 0.05). Of interest, deleterious mutations were observed in three cases of conservative D2 zinc domains for Gag 3/19 and one case of the high homology region (1/19). This study shows that gag of HIV circulating from MSW has high genetic polymorphism involving deleterious mutations in conserved domains from the p24-p7 gag region.

Evidence of a novel B/C recombinant exhibiting unique breakpoints of near full-length HIV type 1 genome from Northeastern India

Despite the predominance of the HIV-1 clade C in India, the presence of other subtypes and recombinants has been reported. Here we report the identification of a novel HIV-1 B/C recombinant isolated from Northeast India and characterized near full length genome of the recombinant virus. Bootscan analysis of the nearly full-length genome showed a unique mosaic structure consisting of a subtype B backbone with three subtype C genome insertions. Breakpoint analyses revealed insertion of fragments belonging to subtype C at positions 1853-2223 in gag and 3025-3759 and 3998-5073 in pol. Phylogenetic analysis revealed that the segments of subtype B clustered with sequences of subtype B viruses reported from Thailand whereas segments of subtype C clustered with sequences of subtype C viruses reported from India. We report the mosaic structure that is distinct to HIV-1 B/C recombinant viruses reported to date.

Characterization of B/C recombinants of near full-length HIV type 1 from northeastern India with mosaics identical to ARE195FL but with a different ancestral origin

We have characterized near full-length genomes of three B/C recombinants of HIV-1 from the northeastern state of India. The recombinant viruses showed a backbone of subtype C virus with a single insertion of the subtype B genome in the envelope region. While all of them were distinct from B/C recombinants CRF_07 and CRF_08 circulating in China and CRF_04BR137 circulating in Brazil, two of them presented with break-points identical to the Argentinean B/C recombinant ARE195FL. However, neighbor-joining analysis followed by phylogenetic clustering showed that gp120 belonging to subtype B of all the recombinants clustered with Thai B sequences, while subtype C gag clustered with an Indian subtype C sequence, suggesting a unique ancestral origin of these recombinants.

Detection of intersubtype recombinants with respect to env and nef genes of HIV-1 among female sex workers in Calcutta, India

HIV-1 detected among female sex workers in Calcutta, India was characterized in respect to env and nef genes. A total of 39 HIV-1 seropositive samples were used in the study. Phylogenetic analysis of the nucleotide sequences of respective regions showed that 22 out of 39 samples (56.4%) were infected with subtype C with respect to both env and nef genes; however, 17 samples (43.6%) showed distinct subtype discordance. Simplot analysis of these samples showed the presence of intersubtype recombination between subtypes C and B. Both env C/nef B and env B/nef C recombinants were found to be present; 16 samples were found to be env C/nef B and 1 sample was detected as env B/nef C. This result indicates the emergence of intersubtype recombinants of HIV-1 for the first time in this eastern part of India.

Quantitation of HIV-1 RNA levels in plasma and CSF of asymptomatic HIV-1 infected patients from South India using a TaqMan real time PCR assay

BACKGROUND

Most of the quantitation assays for HIV-1 RNA used currently are designed and optimized for HIV-1 subtype B viruses and hence may not be suitable for India, where the predominant subtype is HIV-1 subtype C.

OBJECTIVES

Development and standardization of HIV-1 TaqMan real time PCR assay suitable for measuring plasma and CSF viral RNA levels in HIV subtype C infected individuals.

STUDY DESIGN

A TaqMan real time PCR was developed using primers and probes selected in the gag region for detection of Indian HIV-1 subtype C strain. Plasma (n=120) and CSF samples (n=46) obtained from HIV infected subjects were used to evaluate the sensitivity and specificity of the assay. A comparative evaluation was carried out with a commercially available quantitative HIV viral load assay (Roche Amplicor Version 1.5).

RESULTS

The TaqMan assay was able to amplify all HIV-1 group M subtypes except subtype E. Viral loads could be estimated in all the plasma (n=120) and 40/46 CSF samples obtained from HIV positive subjects. Sensitivity of this assay was found to be 180 copies/ml. Correlation with the commercially available viral load assay was very good (r=0.885).

CONCLUSIONS

A TaqMan real time PCR was standardized for HIV-1 subtype C and it was more sensitive (180 copies/ml) than standard Amplicor monitor assay, Version 1.5 (400 copies/ml).

Phylogenetic analysis of env, gag, and tat genes of HIV type 1 detected among the injecting drug users in West Bengal, India

A recent occurrence of HIV-1 seropositivity among a group of injecting drug users (IDUs) in Darjeeling, a hilly district in northern West Bengal, revealed overall 11.8% HIV seroprevalence. Our study based on env (C2-V3), gag (p24-p7), and tat (exon-1) genomic regions of HIV-1 detected among this population showed that Darjeeling IDU sequences belonged to subtype C. Interestingly, the IDU sequences from Darjeeling were again found to be closer to the C strains from Manipur, a northeastern state in India, which is linked to the Golden Triangle via the Manipur-Myanmar border, rather than the IDU C sequences from Nepal, a neighboring country of India. The outgroup reference strains from different sites of IDU-driven epidemics in the world like Russia, Vietnam, Thailand, and Spain belonged to the nonsubtype C group and formed separate clusters from the subtype C cluster in our analysis. These results indicate a rapid spread of HIV-1 by possible drug trafficking along international boundaries, which might also help in the invasion of HIV-1 among IDUs of Darjeeling through the Manipur-Myanmar border of India.