The frequency of HIV-I drug resistance mutations among treatment-naive individuals at a tertiary care centre in south India

Drug resistance mutations in protease gene of HIV-1 subtype C infected patient population

Failure of antiretroviral therapy (ART) in HIV-1 infection is a critical issue for the physicians treating HIV patients. The major cause of drug failure is the development of resistance mutations in reverse transcriptase (RT) and/or protease (PR) genes. Mutations associated with drug resistance decrease drug effectiveness. This study was conducted to assess drug resistance profile of the entire PR gene in 90 HIV-1 patients consisting of 23 ART non-responsive, 32 ART responsive and 35 drug naive patients. It was observed that the majority of the sequences (94.4%) belonged to subtype C and (5.5%) to subtype A1. The ART non-responsive and responsive patients were treated with either first line of ART regimen (two NRTI and one NNRTI) or second line of ART regimen that included additional one protease inhibitor (PI). All the patients in each group except one responsive patient had various minor resistance mutations. Thus, drug failures in ART non-responsive patients may not always be due to drug resistance mutations instead other factors may also be responsible for drug failures such as non-compliance, suboptimal dose or drug interaction. The presence of minor drug resistance mutations in drug naive patients is suggestive of transmitted resistance mutations.

Frequency of transmitted drug resistance mutations among treatment-naïve HIV-1-infected individuals at a tertiary care centre in South India

INTRODUCTION

Morbidity and mortality among HIV-1-infected individuals has been dramatically reduced by the implementation of combinational antiretroviral therapy (ART). However, the efficiency of these therapies is compromised due to HIV-1 transmitted drug resistance mutations (TDRMs).

METHODS

We collected a total of 127 samples from ART-naïve HIV-infected individuals and sequenced the pol gene and analysed for drug resistance mutations using the Calibrated Population Resistance (CPR) tool in the Stanford database.

RESULTS

All the 127 clinical samples (100 %) were identified as HIV-1 subtype C. Based on the CPR tool, three strains (2.4 %) had TDRMs, and these were K101E, Y181C and G190A. Our findings correlated well with the WHO surveys conducted in Asia, including India, which consistently reported <5 % TDRM among the specific populations assessed.

CONCLUSION

In countries like India, regular monitoring of TDRMs will provide better information for clinical practice improvement and policy making.

Comparative analysis of drug resistance mutations in the human immunodeficiency virus reverse transcriptase gene in patients who are non-responsive, responsive and naive to antiretroviral therapy

Drug resistance mutations in the Pol gene of human immunodeficiency virus 1 (HIV-1) are one of the critical factors associated with antiretroviral therapy (ART) failure in HIV-1 patients. The issue of resistance to reverse transcriptase inhibitors (RTIs) in HIV infection has not been adequately addressed in the Indian subcontinent. We compared HIV-1 reverse transcriptase (RT) gene sequences to identify mutations present in HIV-1 patients who were ART non-responders, ART responders and drug naive. Genotypic drug resistance testing was performed by sequencing a 655-bp region of the RT gene from 102 HIV-1 patients, consisting of 30 ART-non-responding, 35 ART-responding and 37 drug-naive patients. The Stanford HIV Resistance Database (HIVDBv 6.2), IAS-USA mutation list, ANRS_09/2012 algorithm, and Rega v8.02 algorithm were used to interpret the pattern of drug resistance. The majority of the sequences (96 %) belonged to subtype C, and a few of them (3.9 %) to subtype A1. The frequency of drug resistance mutations observed in ART-non-responding, ART-responding and drug-naive patients was 40.1 %, 10.7 % and 20.58 %, respectively. It was observed that in non-responders, multiple mutations were present in the same patient, while in responders, a single mutation was found. Some of the drug-naive patients had more than one mutation. Thymidine analogue mutations (TAMs), however, were found in non-responders and naive patients but not in responders. Although drug resistance mutations were widely distributed among ART non-responders, the presence of resistance mutations in the viruses of drug-naive patients poses a big concern in the absence of a genotyping resistance test.

Emergence of HIV-1 drug-resistant variants in women following antiretroviral prophylaxis for the prevention of mother to child transmission

PURPOSE

Emergence of drug resistance following HIV prophylaxis has an important impact on ART program.

OBJECTIVE

To investigate the emergence of drug resistance in HIV-1 infected pregnant women.

MATERIALS AND METHODS

Fifty-three HIV-1 infected pregnant women who had received 4-12 weeks of antenatal AZT followed by Nevirapine during delivery and Combivir [AZT + 3TC] for 1 week postpartum (group-1, n = 48) or who come at the time of delivery and received Nevirapine followed by Combivir for 1 week (group-2, n = 5) were recruited. Samples were collected prior to the start of the prophylaxis and 5-8 weeks postpartum. In addition, a third sample was collected between 26-65 weeks postpartum from 7 women. Amplification of HIV-1 pol gene and drug resistance analysis was done.

RESULT

Two (3.8%) women in group-1 showed transmitted drug resistance and they continued to show this even at 6 weeks postpartum. One (2%) woman from group-1 showed a mutation after 6-8 weeks of prophylaxis. Among the samples collected between 26-65 weeks postpartum, 3/7 (43%) showed mutations and all these women belong to group-1. Women belonging to group-2 didn't show mutation prior to or following prophylaxis.

CONCLUSION

In contrast to the available data among pregnant women with ART prophylaxis, our data showed reduced frequency of mutations following 5-8 weeks of postpartum but an emergence of mutation later (26-65 weeks). The addition of Combivir with the single dose Nevirapine during delivery and the early stage of the disease with higher CD4 counts could be the reasons for this.

The performance of reverse transcriptase assay for the estimation of the plasma viral load in HIV-1 and HIV-2 infections

Viral load testing for human immunodeficiency virus 1 (HIV-1) in resource-poor settings continues to be a challenge. Although antiretroviral therapy (ART) is being made available in developing countries, monitoring of viral load is not being done on a regular basis. The purpose of this study was to assess the utility of Cavidi version 3.0, which measures the plasma reverse transcriptase (RT) activity and compare its performance with molecular HIV viral load assays. In all, 125 HIV-1 and 13 HIV-2 positive samples were analyzed. The overall sensitivity of the assay was 86.8% and 94.1% for viral load >1000 copies/ml measured by Qiagen Artus HIV-1 RG RT PCR and Abbott RealTime HIV-1 PCR assays, respectively. Compared with the routine molecular viral load assays, Cavidi version 3.0 is inexpensive, user-friendly, the expenditure on infrastructure is minimal, and it can be used for monitoring of both HIV types.

Patterns of HIV-1 Drug-Resistance Mutations among Patients Failing First-Line Antiretroviral Treatment in South India

BACKGROUND

Although highly active antiretroviral therapy has improved the quality of life among HIV-infected people in India, the emergence of drug resistance along with the limited access and affordability to routine monitoring continues to be a challenge worldwide.

METHODS

The frequency and patterns of HIV-1 drug-resistance mutations among the first-line failing HIV-infected patients attending a hospital in Salem, Tamil Nadu, India, were genotypically analyzed using the online Stanford HIV Database.

RESULTS

Of the study patients followed up for 6 months, 23 patients failed first-line therapy and the mutation of I135R/T/V/X, L178 I/M, M184V/I, D67N, K70R, and K103N was most common. Phylogenetic analysis revealed that most of these patients belonged to HIV subtype C.

CONCLUSION

The study documents the frequency of nucleoside reverse transcriptase inhibitor and nonnucleoside reverse transcriptase inhibitor mutations that are prevalent in the first-line failing HIV-infected patients of South Indian region and adds up to the data for developing future algorithms to study the drug-resistance mutations of HIV subtype C. Thus, the results of the study call for the need for rational approach for selecting and for frequent viral monitoring to be performed to detect failure, followed by genotyping.

Different Effects of Nonnucleoside Reverse Transcriptase Inhibitor Resistance Mutations on Cytotoxic T Lymphocyte Recognition between HIV-1 Subtype B and Subtype A/E Infections

The effect of antiretroviral drug resistance mutations on cytotoxic T lymphocyte (CTL) recognition has been analyzed in HIV-1 subtype B infections, but it remains unclear in infections by other HIV-1 subtypes that are epidemic in countries where antiretroviral drugs are not effectively used. We investigated the effect of nonnucleoside reverse transcriptase (RT) inhibitor (NNRTI)-resistance mutations (Y181C, Y181I, and Y181V) on epitope recognition by CTLs specific for 3 different HIV-1 epitopes (HLA-A*02:01-restricted IV10, HLA-B*35:01-restricted NY9, and HLA-C*12:02-restricted KY9) in subtype B and subtype A/E infections and the accumulation of these mutations in treatment-naive Japanese and Vietnamese. These NNRTI-resistance mutations critically affected NY9-specific and KY9-specific T cell responses in the subtype B infections, whereas they showed a different effect on IV10-specific T cell responses among the subtype B-infected individuals. These mutations affected IV10-specific T cell responses but weakly affected NY9-specific T cell responses in the subtype A/E infections. The substitution at position 3 of NY9 epitope which was found in the subtype A/E virus differently influenced the peptide binding to HLA-B*35:01, suggesting that the differences in peptide binding may result in the differences in T cell recognition between the subtype B virus and A/E virus infections. The Y181C mutation was found to be accumulating in treatment-naive Vietnamese infected with the subtype A/E virus. The present study demonstrated different effects of NNRTI-resistance RT181 mutations on CTL responses between the 2 subtype infections. The Y181C mutation may influence HIV-1 control by the CTLs in Vietnam, since this mutation has been accumulating in treatment-naive Vietnamese.

IMPORTANCE

Antiretroviral therapy leads to the emergence of drug-resistant HIV-1, resulting in virological and clinical failures. Though HIV-1-specific CTLs play a critical role in HIV-1 infection, some of drug resistance mutations located in CTL epitopes are known to affect HIV-1-specific CTL responses. Nonnucleoside reverse transcriptase inhibitor (NNRTI)-resistance RT181 mutations are frequently observed in patients treated with NNRTIs. Such drug resistance mutations may have an influence on immune control by HIV-1-specific CTLs, especially in countries where antiretroviral drugs are not effectively used. We here investigated the effect of three NNRTI-resistance RT181 mutations on immune responses by HIV-1-specific CTLs and the recent accumulation of these mutations in treatment-naive Vietnamese infected with HIV-1 subtype A/E virus. RT181 mutations affected CTL recognition in both subtype A/E and B infections, while the RT Y181C mutation has been accumulating in treatment-naive Vietnamese. The results suggest that the Y181C mutation may influence HIV-1 control by CTLs in Vietnam.

Suboptimal adherence associated with virological failure and resistance mutations to first-line highly active antiretroviral therapy (HAART) in Bangalore, India

This study was conducted to examine the relationship between adherence, viral load (VL) and resistance among outpatients receiving highly active antiretroviral therapy (HAART) in Bangalore, India. In total, 552 outpatients were recruited and VL testing was conducted for all study participants. HIV-1 genotypic resistance testing was performed for 92 participants with a VL ≥ 1000 copies/ml. Interpretation of resistance mutations was performed according to the Stanford database. Past-month adherence and treatment interruptions for >48 h were assessed via self-report. At baseline, 34 participants (6%) reported <95% past-month adherence and 110 (20%) reported a history of >48 h treatment interruptions. Combining the two adherence measures, 22% of participants were classified as 'suboptimally adherent'. In total, 24% of study participants (n = 132) had a detectable VL. Among the 92 samples sent for resistance testing, 68% had at least one nucleoside reverse transcriptase inhibitor (NRTI) mutation, with M184V being the most common (62%) and with 48% having thymidine analogue mutations. Moreover, 72% had at least one non-nucleoside reverse transcriptase inhibitor (NNRTI) mutation and 23% had three or more NNRTI mutations. Both adherence measures were significantly associated with VL (P < 0.001). Suboptimal adherence was significantly associated with resistance mutations (P < 0.02). The findings illustrate for the first time the strong association between suboptimal adherence, treatment failure and drug resistance to first-line HAART in India. The predictive value of standard adherence measures was improved by including treatment interruption data. The observed mutations can jeopardise future treatment options, especially in light of limited access to second-line treatments. To develop effective adherence interventions, research is needed to examine culturally-specific reasons for treatment interruptions.

Emergence of drug resistance-associated mutations in HIV-1 subtype C protease gene in north India

A major cause of anti-retroviral therapy (ART) failure is the drug resistance-associated mutations in polymerase gene of HIV-1. Paucity of data regarding potential drug resistance to protease inhibitors (PIs) prompted us to carry out this study. Drug resistance (DR) genotyping of the entire protease gene was performed in 104 HIV-1 ART-naive and first-line ART-experienced patients. The DR pattern was analyzed using the Stanford HIV-DR database, International AIDS Society-USA mutation list and REGA algorithm version 8.0. Subtyping was done using Mega 4 and REGA HIV-1 subtyping tool-v2.01. Majority of our sequences 98 (96%) were subtype C and remaining four (3.92%) were subtype A1. In three (2.9%) DE patients, major DR-associated mutation at D30 N and M46I positions were detected. Approximately 70% polymorphisms as minor mutations were observed in protease gene, of which 14 distinct amino acids changes were linked to partial DR such as G16E, K20R, M36I, D60E, I62V, L63P, I64M, H69K, T74A/S, V77I, V82I, I85V, L89M, and I93L. The two major and several minor mutations detected in this study confer low/intermediate levels of resistance to most PIs independently or together. Our results conclude that resistance testing in HIV-1-infected patients should be performed before the initiation of PI therapy for better therapeutic outcome in this region. This information not only will shed light on the extent of current DR in HIV strains but also will aid in patient treatment and drug designing.

High viremia and low level of transmitted drug resistance in anti-retroviral therapy-naïve perinatally-infected children and adolescents with HIV-1 subtype C infection

Background

High plasma viremia in HIV-1 infection is associated with rapid CD4 cell decline and faster disease progression. Children with HIV infection have high viral loads, particularly in early childhood. In this study we sought to understand the relationship between duration of HIV-1 infection and viral dynamics among perinatally-infected children and adolescents in India along with transmitted drug resistance in this population.

Methods

During 2007–2011, cross-sectional samples were collected from ART-naïve children (n = 105) with perinatally-acquired HIV infection, aged 2–16 years from Bangalore, India. CD4 counts, viral load and in-house genotyping were performed and transmitted drug resistance mutations were identified using the World Health Organization recommendations for Surveillance of Drug Resistance Mutations (SDRM_2009) list.

Results

Among 105 children studied, 73.3% (77/105) were asymptomatic, but had a median viral load of 5.24 log copies/mL (IQR 4.62-5.66). In the adolescent age group, 54% (21/39) had high levels of viremia (median 5.14 log copies/mL) but were asymptomatic. HIV-1 subtyping identified 98% strains (103/105) as subtype C; one A1 and one unique recombinant form (URF). Transmitted NRTI resistance was 1.9% (2/105); NNRTI resistance was 4.8% (5/105) and overall prevalence of transmitted drug resistance was 5.7% (6/105).

Conclusions

The high burden of plasma viremia found among untreated asymptomatic adolescents needs to be addressed both from an individual angle to halt disease progression, and from a public health perspective to arrest horizontal transmission. The low level of transmitted drug resistance among perinatally-infected children is reassuring; however with improving ART access globally, regular genotyping surveillance is indicated.

Characterization of HIV type 1 subtype C protease gene: selection of L63P mutation in protease inhibitor-naive Indian patients

Significant subtype-specific differences were observed in the protease (PR) region of the HIV-1 pol gene. Most of the previous studies were restricted to subtype B, although subtype C accounts for more than 50% of HIV infections worldwide. In this study we characterized PR sequences from primary clinical isolates from protease inhibitor (PI)-naive patients in South India (n=39) as well as database-derived HIV-1 subtype C sequences from India (n=542) and globally (n=2970). All the study sequences were identified as subtype C, which is predominant in India. Drug resistance genotyping analysis identified 2.6% (1/39) prevalence of major PI resistance (I54T) and 7.7% (3/39) of minor PI resistance (L10I, T74S, and A71T). Selection of T12S, I15V, L19I, M36I, R41K, H69K, L89M, and I93L was observed both in global and Indian subtype C while the L63P mutation was selected in Indian PR sequences. Three different codon-based maximum likelihood methods agreed on four sites (12, 19, 36, and 82) under positive selection in Indian sequences.

Naturally occurring polymorphisms and primary drug resistance profile among antiretroviral-naive individuals in Bangalore, India

Although India has a large burden of HIV infection, good access to first-line antiretroviral therapy is widely available. However, understanding HIV resistance-associated mutations and polymorphisms is critical for continued success. The RT region of the HIV-1 pol gene was studied among 21 ART-naive HIV-1-infected individuals from South India. In addition, 421 published Indian HIV-1 subtype C sequences were analyzed for time trends in polymorphism frequency. Among primary isolates, all HIV-1 isolates were subtype C, and drug-resistant mutations were identified among two (9.56%) subjects. Mutations included E138A (etravirine resistance associated) and L210LS (thymidine analog mutation). The overall frequency of specific polymorphisms was similar to frequencies reported from different regions of India. Novel mutations were observed at positions Q23P/H and A129AG among isolates from our clinical cohort. Over a span of 10 years, the median polymorphism frequency among ART-naive subjects has remained unchanged, suggesting the slow evolution of HIV-1 subtype C in India.

Resistance considerations in sequencing of antiretroviral therapy in low-middle income countries with currently available options

PURPOSE OF REVIEW

Access to antiretroviral therapy (ART) has been scaled-up in low-middle income countries (LMICs), where the majority of the world's HIV-1-infected population is living. Concerns towards the emergence and spread of HIV-1 drug resistance exist, given the lack of virological monitoring which may give rise to accumulation of resistance as well as the use of suboptimal ART in pregnant women with the aim to reduce perinatal transmission. Knowledge of the prevalence of transmitted and emerging drug resistance as well as its specific patterns is of help in guiding the selection of appropriate ART types and sequencing strategies.

RECENT FINDINGS

Whereas transmitted drug resistance in LMIC is still limited, resistance in pregnant women as a consequence of suboptimal ART for the prevention of vertical transmission is frequent and dependent on viral subtype and load. Accumulation of drug resistance during first-line ART depends on the frequency of monitoring, whereas mutational patterns are influenced by type of ART and, partly, viral subtype.

SUMMARY

Optimized ART for prevention of mother-to-child transmission and closer monitoring of ART programs with the inclusion of viral load may help reducing unnecessary development of HIV drug resistance in LMIC and preserve the limited available treatment options.

HIV reverse transcriptase: structural interpretation of drug resistant genetic variants from India

The reverse transcriptase (RT) enzyme is the prime target of nucleoside/ nucleotide (NRTI) and non-nucleoside (NNRTI) reverse transcriptase inhibitors. Here we investigate the structural basis of effects of drug-resistance mutations in clade C RT using three-dimensional structural modeling. Apropos the expectation was for unique mechanisms in clade C based on interactions with amino acids of p66 subunit in RT molecule. 3-D structures of RT with mutations found in sequences from 2 treatment naïve, 8 failed and one reference clade C have been modeled and analyzed. Models were generated by computational mutation of available crystal structures of drug bound homologous RT. Energy minimization of the models and the structural analyses were carried out using standard methods. Mutations at positions 75,101,118,190,230,238 and 318 known to confer drug resistance were investigated. Different mutations produced different effects such as alteration of geometry of the drug-binding pocket, structural changes at the site of entry of the drug (into the active site), repositioning the template bases or by discriminating the inhibitors from their natural substrates. For the mutations analyzed, NRTI resistance was mediated mainly by the ability to discriminate between inhibitors and natural substrate, whereas, NNRTI resistance affected either the drug entry or the geometry of the active site. Our analysis suggests that different mutations result in different structural effects affecting the ability of a given drug to bind to the RT. Our studies will help in the development of newer drugs taking into account the presence of these mutations and the structural basis of drug resistance.

HIV-1 with predicted CXCR4 genotype identified in clade C from India

BACKGROUND AND OBJECTIVE

HIV-1 uses co-receptors CCR5 and CXCR4 in addition to CD4 for viral entry into cells. CCR5 is used in the early stages of HIV-1 infection, but viruses that utilize CXCR4 for viral entry emerge in the later stages. This is not common among clade C strains, with previous data from India showing the absence of the emergence of CXCR4-using strains. Sequence analysis has demonstrated that the V3 loop plays a very important role in determining the syncytium-inducing (SI) phenotype. The V3 region of the SI variants were observed to have positively charged amino acids at positions 11 and/or 25 and also a overall higher charge. This study looked at co-receptor usage among HIV-1 strains in India from individuals who were antiretroviral therapy (ART) naïve and those not responding to ART.

METHODS

Amplification and sequencing of the HIV-1 env gp120 V3 region was done on 40 ART-naïve individuals, who were selected for the study based on their CD4 counts, and eight patients who had not responded to ART. The sequences were submitted to Geno2Pheno and Web PSSM. The pol gene sequences of these strains were submitted to the REGA HIV-1 subtyping tool.

RESULTS

Forty-seven strains were identified as clade C and one strain as clade A1. Geno2Pheno identified three CXCR4-using strains, and the Web PSSM clade C matrix identified two.

CONCLUSION

We report, for the first time, CXCR4-using strains among HIV-1 clade C strains circulating in India.