Michela Violin

Prevalence of Drug-Resistant HIV-1 Variants in Untreated Individuals in Europe: Implications for Clinical Management

BACKGROUND Infection with drug-resistant human immunodeficiency virus type 1 (HIV-1) can impair the response to combination therapy. Widespread transmission of drug-resistant variants has the disturbing potential of limiting future therapy options and affecting the efficacy of postexposure prophylaxis. METHODS We determined the baseline rate of drug resistance in 2208 therapy-naive patients recently and chronically infected with HIV-1 from 19 European countries during 1996-2002. RESULTS In Europe, 1 of 10 antiretroviral-naive patients carried viruses with > or = 1 drug-resistance mutation. Recently infected patients harbored resistant variants more often than did chronically infected patients (13.5% vs. 8.7%; P=.006). Non-B viruses (30%) less frequently carried resistance mutations than did subtype B viruses (4.8% vs. 12.9%; P<.01). Baseline resistance increased over time in newly diagnosed cases of non-B infection: from 2.0% (1/49) in 1996-1998 to 8.2% (16/194) in 2000-2001. CONCLUSIONS Drug-resistant variants are frequently present in both recently and chronically infected therapy-naive patients. Drug-resistant variants are most commonly seen in patients infected with subtype B virus, probably because of longer exposure of these viruses to drugs. However, an increase in baseline resistance in non-B viruses is observed. These data argue for testing all drug-naive patients and are of relevance when guidelines for management of postexposure prophylaxis and first-line therapy are updated.

Risk of failure in patients with 215 HIV-1 revertants starting their first thymidine analog-containing highly active antiretroviral therapy.

Objective: To investigate the impact of 215 HIV-1 revertants on the risk of virological failure of the first thymidine analog-containing highly active antiretroviral therapy (HAART). Design: The study included 491 HIV-1 subjects of the Italian Cohort Naive for Antiretrovirals, 405 of whom received a genotypic assay before therapy and had a virological follow-up. Methods: Pre-treatment genotypic resistance was assessed by sequencing of the whole protease (PR) and reverse transcriptase (RT) region. Results: Three (3.2%) and 13 (3.3%) individuals with recent (n = 95) and chronic (n = 396) HIV-1 infection carried an HIV-1 strain with 215 revertants (215D/C/E/A/V), respectively. In contrast, nucleoside associated mutations were higher in the former (15.8%) compared with the latter group (6.8%) (P = 0.005). A multivariable regression model, considering pre-HAART viral load levels, use of saquinavir-hard gel as the only PI, use of zidovudine, number of other RT and PR mutations, indicated that patients carrying 215 revertants had an increased risk of virological failure compared with those not carrying such mutants (adjusted relative hazard = 2.97 95% confidence interval, 1.11–7.94, P = 0.03). Among patients with 215 revertants, who experienced virological failure, four out of seven showed the emergence of the 215Y resistant mutation. The probability of 215Y occurrence was different between patients carrying 215 revertants compared with those who did not carried these mutants (P = 0.006). Conclusions: HIV-1 215 revertants with an increased ability for selecting 215Y mutation are associated with a higher risk of virological failure and may lead to the appearance of virus carrying 215Y/F mutation in vivo. These findings suggest that 215 revertant viruses may compromise the efficacy of the first thymidine analog-containing regimen.

Tracing the HIV-1 subtype B mobility in Europe: a phylogeographic approach

BackgroundThe prevalence and the origin of HIV-1 subtype B, the most prevalent circulating clade among the long-term residents in Europe, have been studied extensively. However the spatial diffusion of the epidemic from the perspective of the virus has not previously been traced.ResultsIn the current study we inferred the migration history of HIV-1 subtype B by way of a phylogeography of viral sequences sampled from 16 European countries and Israel. Migration events were inferred from viral phylogenies by character reconstruction using parsimony. With regard to the spatial dispersal of the HIV subtype B sequences across viral phylogenies, in most of the countries in Europe the epidemic was introduced by multiple sources and subsequently spread within local networks. Poland provides an exception where most of the infections were the result of a single point introduction. According to the significant migratory pathways, we show that there are considerable differences across Europe. Specifically, Greece, Portugal, Serbia and Spain, provide sources shedding HIV-1; Austria, Belgium and Luxembourg, on the other hand, are migratory targets, while for Denmark, Germany, Italy, Israel, Norway, the Netherlands, Sweden, Switzerland and the UK we inferred significant bidirectional migration. For Poland no significant migratory pathways were inferred.ConclusionSubtype B phylogeographies provide a new insight about the geographical distribution of viral lineages, as well as the significant pathways of virus dispersal across Europe, suggesting that intervention strategies should also address tourists, travellers and migrants.

Homozygous Δ32 deletion of the CCR-5 chemokine receptor gene in an HIV-1-infected patient

Background:Recent research has found that entry of non-syncytium-inducing (NSI), monocyte-macrophage-tropic HIV-1 isolates requires binding to both CD4 and CCR5 receptors, and that Δ32/Δ32 homozygous individuals are protected against infection. Objective:To analyse the polymorphism of CCR-5 gene in HIV-1-infected and uninfected subjects. Design and methods:CCR-5 sequences were amplified by polymerase chain reaction (PCR) from DNA of peripheral blood mononuclear cells. Samples from 152 HIV-1-infected subjects and 122 uninfected controls were tested for the detection of the 32 base-pair deletion. HIV-1 phenotype was determined by viral isolation and MT-2 evaluation. Results:The wild-type/Δ32 heterozygous and Δ32/Δ32 homozygous conditions were represented in 10.7 and 0.8% of healthy controls and in 9.8 and 0.7% of HIV-1-infected subjects, respectively. Of note, the Δ32/Δ32 deletion of the CCR-5 gene was detected by PCR and sequencing confirmed in a patient with progressive infection harbouring a clade B virus with SI phenotype. Conclusions:Δ32/Δ32 homozygosity for the CCR-5 gene does not confer absolute protection against HIV-1 infection, suggesting that either macrophage-tropic viral strains could use coreceptors other than CCR-5 or infect independently of the presence of a functional CCR-5 coreceptor. Alternatively, primary infection sustained by T-cell-tropic isolates, although exceptional, may occur.

Secondary Mutations in the Protease Region of Human Immunodeficiency Virus and Virologic Failure in Drug-Naive Patients Treated with Protease Inhibitor-Based Therapy

The role of mutations in protease (PR) and reverse-transcriptase (RT) of human immunodeficiency virus (HIV) in predicting virologic failure was assessed in 248 antiretroviral-naive HIV-positive patients who began a PR inhibitor-containing antiretroviral regimen. Genotypic testing was performed on plasma samples stored before the start of therapy. Twenty-seven patients (10.9%) had mutations in the RT, 5 (2%) carried primary mutations in the PR, and 131 (52.8%) showed only secondary PR mutations. Virologic failure at week 24 occurred in 62 (25.0%) of 248 patients. There was a statistically significant correlation between virologic failure and the number of PR mutations (P= .04, chi(2) test). Mutations at codons 10 and 36 of PR (present in 39.3% and 40.0% of patients in whom treatment failed, respectively) were identified by stepwise logistic regression as the strongest predictors of virologic failure (odds ratio, 2.20; 95% confidence interval, 1.30-3.75; P= .004). If confirmed in independent studies, this result may justify the increased use of HIV genotyping in drug-naive patients requiring antiretroviral therapy.

Susceptibility to PNU-140690 (tipranavir) of human immunodeficiency virus type 1 isolates derived from patients with multidrug resistance to other protease inhibitors.

ABSTRACT In our study we examined the anti-human immunodeficiency virus type 1 (anti-HIV-1) activity of a novel HIV-1 protease inhibitor, PNU-140690 (tipranavir), against patient-derived isolates resistant to multiple other protease inhibitors (PIs). The aim of our experiments was to investigate the genotypes and the in vitro phenotypes of drug resistance of PNU-140690. We carried out drug susceptibility tests with peripheral blood mononuclear cells and a fixed amount of infectious virus (1,000 50% tissue culture infective doses) to determine the 50% inhibitory concentration (IC50) and IC90, PCR assays for the detection of drug resistance mutations in RNA in plasma, and direct sequencing of PCR products. Phenotypic resistance to PIs was invariably related to genotypic mutations. The substitutions among the amino acid residues of the protease included L10I, K20R, L24I, M36I, N37D, G48V, I54V, L63P, I64V, A71V, V77I, V82A, I84V, and L90M. Isolates from all of the patients had developed a maximal degree of resistance to indinavir, ritonavir, and nelfinavir (IC50s, >0.1 μM). We also compared these mutations with the amino acid changes previously described in association with in vivo tipranavir administration. The mutations included the following: I15V, E35D, N37D, R41K, D60E, and A71T. Infections with IIIB, 14aPre, and N70 were inhibited by an average drug IC90 of 0.18 ± 0.02 μM in multiple experiments. The average mean ± standard error of mean IC90 for the entire group of multidrug-resistant isolates derived from the mean values for two culture wells with p24 antigen supernatant appeared to be 0.619 ± 0.055 μM (range, 0.31 to 0.86 μM). Tipranavir retained a sustained antiviral activity against PI-MDR clinical isolates and might be useful in combination regimens with other antiretroviral agents for patients who have already failed other PI-containing therapies.

The Calculated Genetic Barrier for Antiretroviral Drug Resistance Substitutions Is Largely Similar for Different HIV-1 Subtypes

Background: The genetic barrier, defined as the number of mutations required to overcome drug-selective pressure, is an important factor for the development of HIV drug resistance. Because of high variability between subtypes, particular HIV-1 subtypes could have different genetic barriers for drug resistance substitutions. This study compared the genetic barrier between subtypes using some 2000 HIV-1 sequences (>600 of non-B subtype) isolated from anti-retroviral-naive patients in Europe. Methods: The genetic barrier was calculated as the sum of transitions (scored as 1) and/or transversions (2.5) required for evolution to any major drug resistance substitution. In addition, the number of minor protease substitutions was determined for every subtype. Results: Few dissimilarities were found. An increased genetic barrier was calculated for I82A (subtypes C and G), V108I (subtype G), V118I (subtype G), Q151M (subtypes D and F), L210W (subtypes C, F, G, and CRF02_AG), and P225H (subtype A) (P < 0.001 compared with subtype B). A decreased genetic barrier was found for I82T (subtypes C and G) and V106M (subtype C) (P < 0.001 vs subtype B). Conversely, minor protease substitutions differed extensively between subtypes. Conclusions: Based on the calculated genetic barrier, the rate of drug resistance development may be similar for different HIV-1 subtypes. Because of differences in minor protease substitutions, protease inhibitor resistance could be enhanced in particular subtypes once the relevant major substitutions are selected.

increasing Prevalence of Non-clade B Hiv-1 Strains in Heterosexual Men and Women, as Monitored by Analysis of Reverse Transcriptase and Protease Sequences

Objective: We evaluated the prevalence of HIV‐1 non‐clade B over time in a formerly clade B‐restricted area. Protease and reverse transcriptase regions of the pol gene were used for phylogenetic and recombination analysis and for clade assignment to HIV‐1 A‐D, F‐H, J, and K strains of the M group. Methods: The pol gene of 349 HIV‐1 patients belonging to the Italian Cohort Naive for Antiretrovirals (ICONA) were genotypically analyzed to study the prevalence of antiretroviral‐associated resistance mutations. All HIV‐1 pol sequences and 32 HIV reference strains were analyzed, including the reference strains for the major HIV‐1 subtypes. The non‐clade B sequences according to the HIV‐1 Subtyping Tool program were further studied by a bootscan analysis (SimPlot) to investigate the likelihood of recombination between subtypes. Results: Phylogenetic analysis detected 19 of 349 (5.4%) non‐clade B subtypes. The proportions of patients carrying non‐clade B virus before and after 1997 were 1.9% and 8.4%, respectively (p = .008). Among whites, heterosexual infection and female gender were significantly associated with the presence of non‐clade B subtypes (p = .001 and .005, respectively). Non‐clade B HIV‐1 was harbored by 14.5% of the heterosexuals who were found to be HIV‐1 positive after 1997, 60% of whom were women. Bootscan analysis identified four strains as F, two as A, one as C, one as G, and 11 (57.9 %) as non‐clade B recombinant subtypes. Conclusion: Detection of HIV‐1 subtypes and intersubtype recombinants in a previously clade B‐homogeneous area indicates that the HIV‐1 epidemic is evolving in Italy and that heterosexuals and women are at increased risk of infection with nonclade B HIV‐1 subtypes. Sequences inferred from the pol gene yield to establish the subtype of circulating HIV‐1 strains. As a consequence, genotyping of pol gene for testing resistance to antiretrovirals warrants concomitant surveillance of non‐clade B subtypes.

Changing patterns in HIV-1 non-B clade prevalence and diversity in Italy over three decades*

HIV‐1 non‐B subtypes have recently entered Western Europe following immigration from other regions. The distribution of non‐B clades and their association with demographic factors, over the entire course of the HIV‐1 epidemic, have not been fully investigated in Italy.

Low prevalence of primary mutations associated with drug resistance in antiviral-naive patients at therapy initiation

Objective To assess the prevalence of mutations in the reverse-transcriptase (RT) and protease (PR) region in a cohort of chronically-infected HIV-positive patients requiring highly active antiretroviral therapy (HAART). Methods The study included 347 patients enrolled in the Italian Cohort of Antiretroviral Naive patients (I.CO.NA) who had to initiate HAART. The whole PR-region, and aminoacids 1-320 of RT-region were sequenced from plasma samples at baseline. Results Median CD4-lymphocytes and HIV-RNA at baseline were 231 × 106 cells/l and 4.89 log10 copies/ml; 307 of 347 (88.5%) patients carried no mutations in the RT region, whereas 40 (11.5%) carried one or more mutations associated with resistance to nucleoside-RT inhibitor (NRTI) (7.8%), or non-nucleoside-RTI (NNRTI) (4.9%), with four patients carrying mutations to both classes. Among mutations associated with high-level resistance to RTI, T215Y was found in only two patients, M184V in two cases, T69D and T215C in other two cases (one each), and K103N in only one patient, for a total of six patients (one carrying both T215Y and M184V) (1.7%). Seventy-six patients (21.9%) carried no mutations in the PR region, whereas 271 (78.1%) had one or more mutations. Primary mutations associated with substantial resistance to protease inhibitors were found in only five of 347 patients (1.4%) (M46V/L, I54V, V82A/I); all the other patients carried only secondary mutations (L10F/I/V, M36I, L63P, A71T/V, V77I). Conclusions Prevalence of mutations associated with high-level resistance to antiretroviral drugs is low in HIV-infected patients with long-term infection. This suggests no preclusion in principle to any antiretroviral drug at the time of decision of the first therapeutic regimen.