CXC chemokine ligand 12 (CXCL12), or stromal cell-derived factor 1 (SDF1), is the only known natural ligand for the HIV-1 coreceptor, CXC chemokine receptor 4 (CXCR4). A single nucleotide polymorphism (SNP) in the CXCL12 gene (SDF1-3'A) has been associated with disease progression to AIDS in some studies, but not others. Mutations in the CXCR4 gene are generally rare and have not been implicated in HIV-1/AIDS pathogenesis. This study analyzed the SDF1-3'A SNP and performed mutation screening for polymorphic markers in the CXCR4 gene to determine the presence or absence of significant associations with susceptibility to HIV-1 infection. The study consisted of 257 HIV-1-seropositive patients and 113 HIV-1-seronegative controls representing a sub-Saharan African population belonging to the Xhosa ethnic group of South Africa. The SDF1-3'A SNP was associated with an increased risk for HIV-1 infection (P = 0.0319) whereas no significant association was observed between the occurrence of the SDF1-3'A SNP and increased or decreased plasma levels of CXCL12. Comprehensive mutation analysis of the CXCR4 gene confirmed a high degree of genetic conservation within the coding region of this ancient population.
We analyzed the HIV-1 pol gene from patients in Cape Town to determine the genetic diversity of HIV-1 in the region and to assess the baseline HIV-1 resistance level of treatment-naive patients. Plasma was collected prior to the national antiretroviral therapy (ART) program. RNA was extracted, followed by RT-PCR and automated DNA sequencing of the viral protease (PR) and reverse transcriptase (RT) coding region. Genotyping was done through phylogenetic analysis. The sequences were inspected for resistance-associated mutations against PR and RT inhibitors. A total of 140 pol sequences were analyzed, of which 133 (95%) belong to HIV-1 subtype C, five (3.6%) were subtype B, and one each was subtype G and CRF02_AG. Five sequences (3.6%) had resistance-associated mutations. These include three (2.1%) NNRTI mutations. With the progression of the national ART program, it is important to monitor the resistance profile of naive and treatment-experienced patients.
HIV-1 is a major health problem in South Africa with an average prevalence rate of 29.1% in pregnant women and between 4.9 and 6.1 million people infected. Using env gp120 V3 serotyping and genotyping techniques 410 patient samples were investigated. Most of the samples were obtained from different clinics in the greater Cape Town area of the Western Cape Province in South Africa. These included an academic hospital, state and private clinics, an informal settlement, sex worker cohorts, and the blood transfusion services. RNA was extracted from plasma samples followed by RT-PCR and sequencing of the env gp120 V3 region. Sequence fragments were assembled using Sequencher V4.7 and subsequently codon aligned. Distance calculation, tree construction methods, and bootstrap analysis were implemented using MEGA version 4.0. Viral load measurements indicated that HIV-1 RNA levels from 74 samples were below the assay detection limit. Three hundred thirty-six samples were used for env PCR and sequencing and 320 were assigned to subtypes. The majority of the sequences were subtyped as C (n = 285, 89.0%). Other subtypes detected were subtype A (n = 10, 3.1%); subtype B (n = 22, 6.8%); one each of subtypes F1, G, U, and a CH recombinant. Whether this diversity will have major implications for HIV-1 evolution and vaccine development in this region remains undetermined.
South Africa has one of the fastest growing HIV-1 epidemics worldwide, consisting mostly of subtype C. However, HIV-1 subtype B and subtype D viruses were isolated in the beginning of the epidemic in the early 1980s. This study describes the amplification, cloning, and near full-length genome sequencing of four HIV-1 subtype D primary strains, isolated from 1984 to 1986 in Cape Town, in what seems to have been a small restricted subtype D epidemic in the country.
South Africa has the highest number of HIV-1-infected individuals in the world, with HIV-1 subtype C prevailing. However, HIV-1 subtype C accessory genes are rarely characterized in the country. These genes are important for establishing viral pathogenesis. The Vif protein has been shown to counteract the antiretroviral activity of APOBEC3G/F cytidine deaminases. In this study an additional 50 HIV-1 vif sequences are characterized. These include 48 HIV-1 subtype C and 2 HIV-1 subtype B sequences. Highly conserved HIV-1 subtype C motifs are outlined. The previously identified RLRR (90-93) motif does not seem to be conserved among our newly analyzed sequences. Conserved motifs can be useful for developing new vaccine strategies or antiretroviral drugs.
A single nucleotide polymorphism (SNP) at codon 64 in the CC chemokine receptor 2 gene (CCR2 V64I) has been associated with a dominant effect of delaying disease progression from human immunodeficiency virus-1 (HIV-1) infection to acquired immunodeficiency syndrome (AIDS). The objective of our study was to design a comprehensive mutation detection assay for the entire coding region of the CCR2A and CCR2B gene transcripts, including all relevant splice site junctions and to identify novel mutations and SNPs within our predominantly African-based population, which could influence an individual's susceptibility to HIV-1 infection and/or progression to AIDS. The mutation detection assay, based on denaturing gradient gel electrophoresis (DGGE), allowed for the complete analysis of five individuals per denaturing gel. Our study cohort consisted of 102 HIV seropositive patients and 144 HIV seronegative controls from the diverse South African population. Application of the CCR2-DGGE assay resulted in the detection of two previously reported CCR2 polymorphisms, namely CCR2 V64I and CCR2 N260N, and 11 novel mutations, including seven SNPs occurring at high allelic frequencies within specific population groups of South Africa. The large number of novel mutations/SNPs identified, using the CCR2-DGGE assay, indicates the importance for comprehensive analysis of all candidate genes in host susceptibility to HIV-1 infection, specifically in the under-studied African-based populations.
The fast growing HIV-1 epidemic in South Africa is mainly caused by HIV-1 group M subtype C, spreading via heterosexual transmission. In South Africa HIV-1 subtype B and D viruses were responsible for the initial epidemic during the 1980s, primarily in the homosexual population. This study describes the full-length PCR amplification and sequencing of an HIV-1 subtype D strain recovered from plasma from a sample taken during 1990. This is only the second full-length non-syncytium-inducing (NSI) subtype D strain described. Although restricted, the subtype D strain is still being detected in the South African population.
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