Carlos Rocco

Extremely Rapid Spread of Human Immunodeficiency Virus Type 1 BF Recombinants in Argentina

ABSTRACT The epidemic of human immunodeficiency virus type 1 (HIV-1) in Argentina is distinctive in that many infections are caused by subtype BF recombinant viruses. To determine their demographic history, we estimated the evolutionary rate, mode of population growth, and age of genetic diversity among 40 BF vpu sequences. This revealed one of the highest substitution rates reported for HIV-1, at 10.793 × 10−3 substitutions per site per year, and a very rapid rate of population growth, with an initial mean epidemic doubling time of 3.72 months. This rapid population growth is compatible with an elevated fitness for subtype BF compared to that for “pure” B and F viruses.

Effect of HIV-1 Vif variability on progression to pediatric AIDS and its association with APOBEC3G and CUL5 polymorphisms.

The APOBEC3G protein is a restriction factor that can inhibit the replication of HIV-1. The virus has the capacity to counteract this antiviral activity through the expression of the Vif accessory protein, which recruits a CUL5-based ubiquitin ligase complex that determines APOBEC3G proteasomal degradation. In this work we evaluated in a large pediatric cohort (i) whether single nucleotide polymorphisms of APOBEC3G and CUL5 genes (APOBEC3G H186R, APOBEC3G C40693T and CUL5 SNP6) can alter the risk of HIV-1 vertical transmission and/or the rate of progression to AIDS, (ii) the effect of HIV-1 Vif variants on the clinical course of disease, and (iii) whether the patient genotype for the studied polymorphisms could have an impact on Vif characteristics. We found no effect of the studied APOBEC3G or CUL5 genetic variants on vertical transmission or progression to pediatric AIDS. However, we detected an association of certain Vif alterations (a one amino acid insertion at position 61 and the substitutions A62D/N/S and Q136P) with an accelerated AIDS outcome. Additionally, we observed that the APOBEC3G C40693T and CUL5 SNP6 minor alleles were correlated with substitutions in Vif motifs that are involved in the interaction with APOBEC3G and CUL5 proteins, respectively. Our results suggest that Vif alterations may contribute to a rapid AIDS onset and that Vif variability could be influenced by APOBEC3G and CUL5 polymorphisms in children.

Longitudinal analysis of HIV-1 BF1 recombinant strains in vertically infected children from Argentina reveals a decrease in CRF12_BF pol gene mosaic patterns and high diversity of BF unique recombinant forms

The HIV-1 epidemic associated to BF1 recombinants in South America is both complex and intriguing, with an underestimated diversity of recombinant structures. Our aim was to explore the characteristics and temporal dynamics of the HIV-1 BF1 epidemic in Argentina, through the study of 172 HIV-1 pol BF1 recombinant sequences obtained from HIV-1 vertically infected patients born from 1986 to 2008. Recombination patterns were characterized by bootscanning, subtype signature analysis, and phylogenetic approaches. Proportion of sequences sharing common ancestry and recombination breakpoints with the Circulating Recombinant Form (CRF) CRF12_BF was compared against sequences with a non-CRF12_BF pattern in three study periods, and by fitting the data to a logistic model. Twenty-eight HIV-1 pol BF1 mosaic structures were identified, including four of the seven South-American CRF_BF-like patterns. However, common ancestry of these sequences with reference CRF strains only confirmed the presence of CRF12_BF (51.1%) and CRF17_BF (1.2%) among the Argentine BF pol sequences. Most non-CRF_BF-like recombinant patterns shared at least one common recombination breakpoint with CRF12_BF. The number of transmissions caused by CRF12_BF viruses decreased in a linear way over time, from 69% in the period 1986-1993 to 46% in 2001-2008. In conclusion, the diversity of HIV-1 pol BF1 recombinant structures in Argentina is much more complex than previously described, with at least two CRFs_BF and 26 BF1 unique recombinant forms. For the first time, we provide evidence of a decrease in the proportion of CRF12_BF viruses transmitted from mother-to-child since the start of the epidemic to the present time in Argentina.

Influence of MDR1 C1236T polymorphism on lopinavir plasma concentration and virological response in HIV-1-infected children

BACKGROUND Variability in MDR1 and PXR has been associated with differences in drug plasma levels and response to antiretroviral therapy. We investigated whether polymorphisms in MDR1 (T-129C, C1236T and C3435T) and PXR (C63396T) affect lopinavir plasma concentration and the virological or immunological response to HAART in HIV-1-infected children. METHODS Genotypes were identified in 100 blood donors and 38 HIV-1-infected children. All children received HAART with lopinavir boosted with ritonavir (LPV/r) at the time of LPV plasma level quantification, before (Ctrough) and between 1 and 2h after (Cpost-dose) the administration of the next dose of drug. CD4(+) T-cell counts and plasma viral load were analyzed before and after the initiation of LPV/r. RESULTS MDR1 1236T, MDR1 3435T and PXR 63396T alleles showed a frequency of ~50% while the MDR1 -129C allele only reached 5%. Children heterozygotes 1236CT showed a significantly lower LPV Cpost-dose than homozygotes 1236TT (median Cpost-dose=3.04 μg/ml and 6.50 μg/ml, respectively; p=0.016). Children heterozygotes 1236CT also had a lower decrease of viral load after 36 weeks of LPV/r exposure compared with homozygotes 1236CC (median viral load changes=-0.50 log 10 copies/ml and -2.08 log 10 copies/ml, respectively; p=0.047). No effect on the immunological response was observed for polymorphisms of MDR1 or PXR. CONCLUSIONS Our results suggest that the MDR1 C1236T SNP significantly reduces LPV plasma concentration affecting the virological response to HAART. Heterozygotes 1236CT might have an altered level of P-gp expression/activity in enterocytes and CD4(+) T lymphocytes that limits the absorption of LPV leading to an impaired virological suppression.

HIV type-1 genotypic resistance profiles in vertically infected patients from Argentina reveal an association between K103N+L100I and L74V mutations.

BACKGROUND Patterns and pathways of HIV type-1 (HIV-1) antiretroviral (ARV) drug resistance-associated mutations in clinical isolates are conditioned by ARV history and factors such as viral subtype and fitness. Our aim was to analyse the frequency and association of ARV drug resistance mutations in a group of long-term vertically infected patients from Argentina. METHODS Plasma samples from 71 patients (38 children and 33 adolescents) were collected for genotypic HIV-1 ARV resistance testing during the period between February 2006 and October 2008. Statistically significant pairwise associations between ARV resistance mutations in pol, as well as associations between mutations and drug exposure, were identified using Fishers exact tests with Bonferroni and false discovery rate corrections. Phylogenetic analyses were performed for subtype assignment. RESULTS In protease (PR), resistance-associated mutations M46I/L, I54M/L/V/A/S and V82A/F/T/S/M/I were associated with each other and with minor mutations at codons 10, 24 and 71. Mutations V82A/F/T/S/M/I were primarily selected by the administration of ritonavir (RTV) in an historical ARV regimen. In reverse transcriptase, thymidine analogue mutation (TAM)1 profile was more common than TAM2. The non-nucleoside K103N+L100I mutations were observed at high frequency (15.5%) and were significantly associated with the nucleoside mutation L74V in BF recombinants. CONCLUSIONS Associations of mutations at PR sites reflect the frequent use of RTV at an early time in this group of patients and convergent resistance mechanisms driven by the high exposure to protease inhibitors, as well as local HIV-1 diversity. The results provide clinical evidence of a molecular interaction between K103N+L100I and L74V mutations at the reverse transcriptase gene in vivo, limiting the future use of second-generation non-nucleoside reverse transcriptase inhibitors such as etravirine.

Unusual substitutions in HIV-1 Vif from children infected perinatally without progression to AIDS for more than 8 years without therapy

The HIV‐1 vif gene encodes for an accessory protein that is central for virus replication due mainly to its capacity to counteract the antiviral action of host APOBEC3 restriction factors. In order to evaluate whether HIV‐1 vif alterations account for a delayed progression to AIDS in children infected perinatally, the vif genes from a group of 11 patients who exhibited an extremely slow disease progression (slow progressors) were studied by direct sequencing. In addition, the vif genes from a group of 93 children with typical disease progression (typical progressors) were analyzed for comparison. Phylogenetic analysis indicated that sequences from slow progressors did not have a common origin, discarding a shared ancestor of reduced virulence. There were no differences in the diversity between the vif genes from slow and typical progressors. No gross defects showing a clear distinction among sequences from both groups of children were found. However, in the deduced Vif proteins, changes V13I, V55T, and L81M were observed only in sequences from slow progressors. By analyzing sequences stored in databases, these mutations were determined as unusual substitutions occurring at highly conserved Vif sites across different HIV‐1 clades, but were observed with an increased frequency in sequences from elite controllers. These mutations were in the Vif regions reported as relevant for protein activity. These findings suggest that the Vif sequences from slow progressors carry unusual substitutions, which may alter the protein function and may contribute to viral attenuation. J. Med. Virol. 84:1844–1852, 2012.

Quantitation of HTLV-I proviral load by a real-time PCR assay using SYBR Green: comparison of two methods for DNA isolation.

A real-time quantitative PCR (qPCR) assay using SYBR Green was developed to determine HTLV-I proviral load (pVL) in peripheral blood mononuclear cells (PBMCs), and its performance was evaluated with samples processed as cell lysates and DNA isolated by salting out. Primers targeting the pol region were standardized against the MT2 cell line and HTLV-I copy number was normalized to the amount of cellular DNA by quantitation of the albumin gene. The sensitivity, specificity and reproducibility of the qPCR were assessed in the two methods used for DNA processing. The assay had a limit of detection of 400 HTLV-I copies/10(6) PBMCs for both methods, with a broad range of quantitation (2.6log(10) to >5log(10)), and without cross-reactivity with HTLV-II or with HIV-1. The inter- and intra-assay coefficients of variation were less than 2.4%. HTLV-I pVL quantitation in seven blood donor samples processed as either cell lysates or isolated DNA by salting out showed a strong linear correlation and no difference in the calculated pVL (Fishers exact test, p>0.05). The assay was found to be a low cost, robust and reproducible assay for quantifying HTLV-I pVL in samples processed as cell lysates or as isolated DNA.

High levels of anti-Nef antibodies may prevent AIDS disease progression in vertically HIV-1-infected infants

HIV‐1‐associated CD4+ T‐cell depletion is a consequence of uninfected cell death. Nef is one of the viral factors that trigger apoptosis on bystander cells, though the plasma Nef levels do not correlate with Th lymphocytes counts. The aim of our study was to evaluate whether anti‐Nef antibodies were involved in paediatric AIDS development and whether they can prevent the CD4+ T‐cell depletion in vertically infected children.

Hypercholesterolemia is associated with the apolipoprotein C-III (APOC3) genotype in children receiving HAART: an eight-year retrospective study.

Polymorphisms in apolipoprotein genes have shown to be predictors of plasma lipid levels in adult cohorts receiving highly active antiretroviral therapy (HAART). Our objective was to confirm the association between the APOC3 genotype and plasma lipid levels in an HIV-1-infected pediatric cohort exposed to HAART. A total of 130 HIV-1-infected children/adolescents that attended a reference center in Argentina were selected for an 8-year longitudinal study with retrospective data collection. Longitudinal measurements of plasma triglycerides, total cholesterol, HDL-C and LDL-C were analyzed under linear or generalized linear mixed models. The contribution of the APOC3 genotype at sites −482, −455 and 3238 to plasma lipid levels prediction was tested after adjusting for potential confounders. Four major APOC3 haplotypes were observed for sites −482/−455/3238, with estimated frequencies of 0.60 (C/T/C), 0.14 (T/C/C), 0.11 (C/C/C), and 0.11 (T/C/G). The APOC3 genotype showed a significant effect only for the prediction of total cholesterol levels (p<0.0001). However, the magnitude of the differences observed was dependent on the drug combination (p = 0.0007) and the drug exposure duration at the time of the plasma lipid measurement (p = 0.0002). A lower risk of hypercholesterolemia was predicted for double and triple heterozygous individuals, mainly at the first few months after the initiation of Ritonavir-boosted protease inhibitor-based regimens. We report for the first time a significant contribution of the genotype to total cholesterol levels in a pediatric cohort under HAART. The genetic determination of APOC3 might have an impact on a large portion of HIV-1-infected children at the time of choosing the treatment regimens or on the counter-measures against the adverse effects of drugs.

Characterization of full-length HIV-1 CRF17_BF genomes and comparison to the prototype CRF12_BF strains

The aim of this work is to characterize the full-length intersubtype recombinant structure of the HIV-1 Circulating Recombinant Form CRF17_BF. A single genome of CRF17_BF was originally described in 2001 as being largely similar to CRF12_BF. Since then, more genomes of CRF17_BF have been sequenced but not adequately described in publications. Here we describe CRF17_BF as a genuine CRF, and analyze its recombination pattern based on bootscan analyses, subtype signature patterns, and phylogenetic reconstruction of subtype-delimited segments. We show that CRF17_BF can be distinguished from CRF12_BF in several regions of the genome, including vpu, pol, env and nef. A complete and accurate characterization and description of recombination breakpoints in CRFs is required for a proper surveillance of HIV-1 genotypes, and important for epidemiological purposes.