Browsing by Author "Parreira, R."
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- Genetic analysis of human immunodeficiency virus type 1 nef in portugal: Subtyping, identification of mosaic genes, and amino acid sequence variabilityPublication . Parreira, R.; Pádua, E.; Piedade, J.; Venenno, T.; Paixão, M. T.; Esteves, A.Extending our previous genetic characterization of human immunodeficiency virus type 1 (HIV-1) strains circulating in Portugal, we here report the first phylogenetic and putative amino acid sequence variability analyses of nef accessory gene. Viral sequences (n = 53) were amplified by nested PCR from proviral DNA purified from peripheral blood mononuclear cells of HIV-1 infected individuals (n = 49). Phylogenetic inference analysis demonstrated a distribution of the viral sequences between subtypes A (sub-subtype A1), B, D, F (sub-subtype F1), G, H, and J, with subtypes G and B accounting altogether for more than half of the genotypes found. A significant number of the proviral DNA sequences analyzed (18.4%) were shown to correspond to intragenic nef recombinants, with the majority having the typical CRF02_AG nef structure. In addition, three novel intragenic recombinant structures were found (B/G/B, CRF02_AG/H, and D/G). From phylogenetic analysis, it was concluded that part of the non-recombinant nef genes might have actually been amplified from mosaic viruses: CRF06_cpx, CRF14_BG, and a new envA/nefJ recombinant. While comparing all the putative Nef sequences, significant amino acid sequence variability was observed. However, most of the described nef functional motifs were relatively well conserved in the majority of the sequences analyzed and numerous amino acid changes fell outside these regions. The results presented unambiguously endorse the high level of complexity of HIV-1 epidemics in Portugal.
- Natural polymorphisms of HIV type 2 pol sequences from drug-naive individualsPublication . Parreira, R.; Monteiro, F.; Pádua, E.; Piedade, J.; Venenno, T.; Paixão, M.T.; Esteves, A.Until today, the susceptibility of human immunodeficiency virus type 2 (HIV-2) to protease and nucleosidic reverse-transcriptase inhibitors (PI and NRTI, respectively) has not been clearly documented. In this report we studied HIV-2 proviral sequences (n = 30) from drug-naive patients. Our results revealed that several amino acid positions in the protease and reverse transcriptase coding sequence harbored residues that have been associated with drug resistance in HIV-1-infected patients. In particular, the M46I substitution in the protease was detected in 90% of the sequences analyzed, which, together with the other substitutions identified, may indicate a reduced susceptibility of HIV-2-infected drug-naive patients to PI. Furthermore, interpretation of genotypic data with four available algorithms, developed for interpretation of HIV-1 sequence data, suggested nonoverlapping profiles of drug resistance.
- Potential impact of viral load and genetic makeup of HIV type 1 on mother-to-child transmission: characterization of env-C2V3C3 and nef sequencesPublication . Pádua, E.; Parreira, R.; Tendeiro, R.; Nunes, Baltazar; Castela, J.; Soares, I.; Mouzinho, A.; Reis, E.; Paixão, M.T.HIV-1 mother-to-child transmission (MTCT) was evaluated in terms of the molecular characterization of the env and nef genomic regions and quantification of maternal RNA viral loads. Assignment of viral subtype was achieved by direct sequencing of PCR 1172 products amplified from proviral DNA in 45 HIV-1-nontransmitting mothers (NTM), along with 13 pairs of HIV-1-transmitting mothers (TM) and their infected children (C). Analysis of the env C2V3C3 and nef sequences revealed that subtypes G and B, and their genetic combinations (AG, BG), accounted for over 84.5% of all viruses identified. The genetic structure form envA-nefG was the most commonly observed, with a lower frequency in the NTM (13.3%) compared to the TM (23.1%) group. A greater number of genetic forms was observed among NTM, namely the presence of sequences assigned to subtypes D and F, as well as the intergenetic A/J, and C/U, recombinant forms, along with a mosaic provirus with a complex putative envA-nefEGE genetic structure. No significant differences were found when RNA viral loads were evaluated as a function of the viral subtypes. Nevertheless, a relatively high quantification of HIV-1 RNA was obtained in the NTM group, emphasizing the importance of the compliance and effectiveness of therapeutic schemes to control viral replication and reduce the risk of HIV vertical transmission. V3 sequences displaying features associated with the R5 phenotype dominated in both groups. Both C2V3C3 and Nef's functional domains were conserved during HIV-1 vertical transmission.