Low‐Abundance Drug Resistance Mutations: Extending the HIV Paradigm to Hepatitis B Virus
Stefano MenzoDonatella VincentiMariacarmela SolmoneMattia ProsperiAlessandro BrusellesIsabella AbbateGabriella RozeraMaria Rosaria Capobianchi
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Objective To isolate stable passage primary HIV-1 drug resistant strains and observe replication dynamics of the drug resistant isolates and evolvement tendency of the drug resistant mutations in vitro.Methods Peripheral blood mononuclear cells(PBMCs)from 15 AIDS patients receiving highly active antiretroviral therapy(HAART)were collected,and the primary HIV-1 stains were separated utilizing co-cultivated with PBMCs from normal people.HIV-1 pol genes from those strains were obtained by RT-PCR and sequenced.The drug resistant mutations were analyzed in the Stanford HIV Drug Resistance Database.Results Eight strong positive strains were isolated from 15 AIDS patients with viral loads higher than 1000 copies/ml,and two of them were drug resistant.Drug resistant mutations of the two strains were respectively K103N/K238T and M184V/K103N/Y181C/H221Y which show high-level resistance to NVP and 3TC/NVP,respectively.K103N,M184V,Y181C and H221Y exist stably in the environment without drug pressure,however,RT K238T reverted to K238.Conclusion Two drug resistant strains were successfully isolated in vitro without drug pressure.Strains with K103N shows superior fitness and can exist steadily.Strains with M184V and K103N/Y181C/H221Y can also replicate stably in vitro without drug pressure.NNRTI mutation K238T reproduces astatically,which suggests that RT 238 codon might revert gradually to wild genotype.
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Primary HIV-1 drug resistant isolate; Drug resistant mutation; Replication dynamics
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HIV drug resistance
Antiretroviral drug
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Upward trends of acquired drug resistances in Ethiopian HIV-1C isolates: A decade longitudinal study
The emergence, accumulation and spread of HIV-1 drug resistance strains in Africa could compromise the effectiveness of HIV treatment programs. This study was aimed at determining the incidence of virological failure and acquired drug resistance mutations overtime and identifying the most common mutational pathways of resistance in a well characterized HIV-1C infected Ethiopian cohort.A total of 320 patients (220 ART naïve and 100 on first lines ART) were included and followed. ART initiation and patients' monitoring was based on the WHO clinical and immunological parameters. HIV viral load measurement and genotypic drug resistance testing were done at baseline (T0-2008) and after on average at a median time of 30 months on ART at three time points (T1-2011, T2-2013, T3-2015).The incidence of virological failure has increased overtime from 11 at T1 to 17 at T2 and then to 30% at T3. At all time point's almost all of the patients with virological failure and accumulated drug resistance mutations had not met the WHO clinical and immunologic failure criteria and continued the failing regimen. A steep increase in the incidence and accumulation of major acquired NRTI and NNRTI drug resistance mutations have been observed (from 40% at T1 to 64% at T2 and then to 66% at T3). The most frequent NRTIs drug resistance associated mutations are mainly the lamivudine-induced mutation M184V which was detected in 4 patients at T1 and showed a 2 fold increase in the following time points (T2: n = 8) and at (T3: n = 12) and the thymidine analogue mutations (such as D67N, K70R and K219E) which were not-detected at baseline T0 and T1 but were increased progressively to 10 at T2 and to 17 at T3. The most frequent NNRTIs associated mutations were K103N, V106M and Y188C.An upward trend in the incidence of virological failure and accumulation of NRTI and NNRTI associated acquired antiretroviral drug resistance mutations are observed. The data suggest the need for virological monitoring, resistance testing for early detection of failure and access for TDF and PI containing drugs. Population-level and patient targeted interventions to prevent the spread of mutant variants is warranted.
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There are more than 500 000 HIV-infected people on antiretroviral treatment (ART) in Zimbabwe with very limited laboratory monitoring. To ensure effective treatment and prevent transmission of drug resistance, affordable treatment monitoring is needed to guide individual treatment.125 whole blood samples from patients on first-line ART were investigated for drug resistance mutations using an in-house genotypic testing method. Patients had been on HIV reverse transcriptase inhibitors only, with some having been on both HIV and TB treatment. DNA was extracted from whole blood; amplicons were generated by nested PCR and sequenced. Drug resistance mutations were determined using the Stanford HIV drug resistance database. Exact statistics were used to investigate relationships between drug resistance and predisposing factors.From 125 samples, 108 were successfully analyzed for drug resistance mutations. 11 of the 108 sequences had drug resistance mutations; predominantly M184V and Y181C. For a 100-cell increase in CD4 count, the odds of being resistant were 61% lower than those with the baseline CD4 count (p = 0.04, CI: 0.34-0.98). There was no association between concurrent HIV/TB treatment and drug resistance (p = 0.41).Although plasma samples are recommended for genotypic testing, the cost of analyzing plasma RNA makes it less feasible in resource limited settings. Lower cost DNA drug resistance testing from whole blood samples was assessed as a treatment-monitoring tool among patients followed by CD4 and clinical monitoring only. The infrequent detection of resistance and higher CD4 is consistent with effective first-line treatment. Further investigation of proviral DNA as a tool to identify drug resistance mutations is warranted.
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Amplicon
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The aim of the present study was to determine viral subtypes and resistance mutations to antiretroviral treatment (ART) in HIV-1-infected treatment-naive patients from Rabat, Morocco during the period 2005–2009. The protease and reverse transcriptase (RT) genes were sequenced, the phylogenetic trees were inferred, and the resistance-associated mutations to NRTIs, NNRTIs, and PIs were recorded according to the international list of surveillance drug resistance mutations (SDRMs). The viral subtypes were subtype B (74%), CRF02_AG (15%), A1 (6%), C (2%), F1 (1%), CRF09 (1%), and CRF25_cpx (1%). The presence of DRMs was found in four (5.06%) of 91 patients; resistance mutations to NRTIs were M184V and T215I/S revertant mutations; resistance to NNRTIs was associated with K103N and resistance to PIs with V82A. These findings have relevant implications for the local molecular mapping of HIV-1 and future ART surveillance studies in the region.
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Protease inhibitor (pharmacology)
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Objective:To analyze the HIV drug resistance in HIV suffers in the locality.Methods: Reverse transcription polymerase chain reaction(RT-PCR) technique was used to amplify the partial HIV-1 pol gene and detect their base sequences.The sequences phylogenesis were analyzed by landing the website http://hivdb.stanford.edu to know the drug resistance of HIV.Results: HIV load of 93 HIV-1/AIDS patients were more than 1000 cp/ml.The result of the genotype detection indicated that HIV-1 gene in 46 cases was amplificated successfully,including 10 untreated patients and 36 treated patients,and their HIV-1 subtype distribution contained CRF01-AE type(4 cases) and B type(42 cases).They were all drug resistance.The rate of drug resistance was 60.86%(28/46).Drug-resistance mutation,such as Q58E,M184V,Y181C,K103N,could result in decline or invalidation of PIs,NRTIs and NNRTIs′curative effect.Conclusion: Antivirus therapy could inhibit HIV-1 compication and improve the therapy effect.But the occurrence of drug resistance prompted that we must monitor HIV drug resistance in time and improve therapeutic schedule in order to lower the emergence and prevalence of drug-resistance virus.
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Any drug selects for drug resistance. But super-antagonistic drug combinations can select for drug sensitivity. This has important application not only for antibacterial therapy but also for cancer therapy: to control cancer with lesser side effects and to eliminate drug-resistant cancer cells, while sparing sensitive normal cells.
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Puerto Rico has one of the highest rates of HIV/AIDS seen for any US state or territory, and antiretroviral therapy has been a mainstay of efforts to mitigate the HIV/AIDS public health burden on the island. We studied the evolutionary dynamics of HIV-1 mutation and antiretroviral drug resistance in Puerto Rico by monitoring the population frequency of resistance-associated mutations from 2002 to 2011. Whole blood samples from 4,475 patients were analyzed using the TRUGENE HIV-1 Genotyping Kit and OpenGene DNA Sequencing System in the Immunoretrovirus Research Laboratory at Universidad Central del Caribe. Results show that 64.0% of female and 62.9% of male patients had HIV-1 mutations that confer resistance to at least one antiretroviral medication. L63P and M184V were the dominant mutations observed for the protease (PRO) and reverse transcriptase (RT) encoding genes, respectively. Specific resistance mutations, along with their associated drug resistance profiles, can be seen to form temporal clusters that reveal a steadily changing landscape of resistance trends over time. Both women and men showed resistance mutations for an average of 4.8 drugs over the 10-year period, further underscoring the strong selective pressure exerted by antiretrovirals along with the rapid adaptive response of HIV. Nevertheless, both female and male patients showed a precipitous decrease for overall drug resistance, and for PRO mutations in particular, over the entire course of the study, with the most rapid decrease in frequency seen after 2006. The reduced HIV-1 mutation and drug resistance trends that we observed are consistent with previous reports from multi-year studies conducted around the world. Reduced resistance can be attributed to the use of more efficacious antiretroviral drug therapy, including the introduction of multi-drug combination therapies, which limited the ability of the virus to mount rapid adaptive responses to antiretroviral selection pressure.
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The ever-expanding rollout of antiretroviral therapy in poor resource settings without routine virological monitoring has been accompanied with development of drug resistance that has resulted in limited treatment success.A cross-sectional study with one time viral load was conducted during the period between 2012 and 2013 to determine treatment failure and drug resistance mutations among adults receiving first-line (44) (3TC_d4T/AZT_NVP/EFV) and second-line (20) (3TC/AZT/LPV/r) in Nairobi, Kenya. HIV-1 pol-RT genotyping for drug resistance was performed using an in-house protocol.A total of 64 patients were recruited (mean age 36.9 yrs.) during the period between 2012 and 2013 of the 44 adult patients failing first-line 24 (40.9%) had drug resistance mutations. Eight (8) patients had NRTI resistance mutations with NAMS M184V (54.2%) and K65R (8.4%) mutations being the highest followed by TAMs T215Y and K70R (12.5%). In addition, among patients failing second-line (20), six patients (30%) had NNRTI resistance; two patients on K103N and G190A mutations while V106A, Y184V, A98G, Y181C mutations per patient were also detected. However, for NRTI two patients had TAM T215Y. M184V mutation occurred in one patient.The study findings showed that HIV-1 drug resistance was significantly high in the study population. The detected accumulated resistance strains show that emergence of HIV drug resistance will continue to be a big challenge and should be given more attention as the scale up of treatment in the country continues.
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The emergence of HIV-1 drug resistance mutations has mainly been linked to the duration and composition of antiretroviral treatment (ART), as well as the level of adherence. This study reports the incidence and pattern of acquired antiretroviral drug resistance mutations and long-term outcomes of ART in a prospective cohort from Northwest Ethiopia. Two hundred and twenty HIV-1C infected treatment naïve patients were enrolled and 127 were followed-up for up to 38 months on ART. ART initiation and patients’ monitoring was based on the WHO clinical and immunological parameters. HIV viral RNA measurement and drug resistance genotyping were done at baseline (N = 160) and after a median time of 30 (IQR, 27–38) months on ART (N = 127). Viral suppression rate (HIV RNA levels ≤ 400 copies/ml) after a median time of 30 months on ART was found to be 88.2% (112/127), which is in the range for HIV drug resistance prevention suggested by WHO. Of those 15 patients with viral load >400 copies/ml, six harboured one or more drug resistant associated mutations in the reverse transcriptase (RT) region. Observed NRTIs resistance associated mutations were the lamivudine-induced mutation M184V (n = 4) and tenofovir associated mutation K65R (n = 1). The NNRTIs resistance associated mutations were K103N (n = 2), V106M, Y181S, Y188L, V90I, K101E and G190A (n = 1 each). Thymidine analogue mutations and major drug resistance mutations in the protease (PR) region were not detected. Most of the patients (13/15) with virologic failure and accumulated drug resistance mutations had not met the WHO clinical and/or immunological failure criteria and continued the failing regimen. The incidence and pattern of acquired antiretroviral drug resistance mutations is lower and less complex than previous reports from sub Saharan Africa countries. Nevertheless, the data suggest the need for virological monitoring and resistance testing for early detection of failure. Moreover, adherence reinforcement will contribute to improving overall treatment outcomes.
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Efavirenz
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