Your search keyword '"Subtype C"' showing total 7 results

1. Molecular and Phylogenetic Analysis of HIV-1 Subtype C in Bahia State, Northeastern Brazil.

Author

Oliveira RC, Souza JSM, Alcântara LCJ, Guimarães ML, Brites C, and Monteiro-Cunha JP

Subjects

Humans, Phylogeny, Brazil epidemiology, Genotype, HIV Infections epidemiology, HIV-1 genetics

Abstract

HIV-1 subtype C is associated with more than half of infections in southern Brazil and has been increasing in other regions of the country. In a previous study carried out in northeastern Brazil, we found a prevalence of 4.1% of subtype C. This work investigates the origin of subtype C in the state of Bahia based on five new viral sequences. The phylogenetic analysis showed that subtype C viruses found in Bahia descend from the main lineage that circulates in other Brazilian regions.

Published

2024

2. Genotypic Characterization of HIV-1 Subtype C in the Central Region of Nepal

Author

Baharat Singh Negi, Masanori Kameoka, Tatsuya Oka, Tomohiro Kotaki, Maho Sasaki, and Shuhei Ueda

Subjects

Phylogenetic tree, Genotype, Transmission (medicine), Immunology, Human immunodeficiency virus (HIV), virus diseases, HIV Infections, Sequence Analysis, DNA, Biology, medicine.disease_cause, Central region, Virology, Immune deficiency syndrome, Infectious Diseases, Nepal, medicine, HIV-1, Humans, subtype C, nearly full-length sequencing, Phylogeny

Abstract

Human immunodeficiency virus type 1 (HIV-1) is a major causative agent of acquired immune deficiency syndrome. Subtype C (HIV-1C) is the most prevalent HIV-1 subtype worldwide. Although it is highly prevalent in Nepal, genotypic information on Nepalese HIV-1C is limited. We herein investigated the origin and dynamics of HIV-1C in Nepal. Nearly full-length sequencing of Nepalese HIV-1C strains and phylogenetic analyses were performed. The results obtained showed that Nepalese HIV-1C is closely related to the Indian and southern African strains and the introduction of HIV-1C into Nepal was estimated to be in the mid-1980s. These results suggest that multiple HIV-1C strains entered Nepal in the mid-1980s, and this was followed by a marked increase in the number of infection cases for the next decade. These results reflect the current transmission dynamics of HIV-1C strains in Nepal and provide valuable information for HIV monitoring and vaccine development.

Published

2019

3. Dynamic Dispersion of HIV-1 Subtype C Toward Brazilian Northeastern Region.

Author

Oliveira RC, Gräf T, Rego FFA, Silva GPSA, Giovanetti M, and Monteiro Cunha JP

Subjects

Brazil epidemiology, Humans, Phylogeny, HIV Infections epidemiology, HIV-1 genetics

Abstract

The subtype C accounts for >50% of HIV type 1 (HIV-1) infections worldwide and it is currently the predominant viral form in South Brazil. Subtype C has been reported in all Brazilian regions; however, the phylogenetic relationship among strains circulating in those regions still remains unclear. This study aimed to investigate the origin and dynamic dispersion of HIV-1 subtype C toward Northeast Brazil. Our phylogenetic analysis suggests that most subtype C strains circulating in Brazil (99%) are descendant from the main lineage whose entrance in the country was previously described in the 1970s. According to the literature, additional introductions of subtype C were reported in the country through the Southeast region and in this study we identified another entry event that occurred most likely through the North region. Furthermore, our analysis suggests that the spread of subtype C to Brazilian Northeastern states occurred through multiple independent introductions of the main lineage that originated in South Brazil between mid-1980s and late 1990s. Despite the observation of eventual new HIV-1 subtype C introductions, our results highlight the predominance of a single lineage of this subtype in Brazil and the importance of South region in its dissemination throughout the country.

Published

2021

4. Genotypic Characterization of HIV-1 Subtype C in the Central Region of Nepal.

Author

Oka T, Negi BS, Ueda S, Sasaki M, Kotaki T, and Kameoka M

Subjects

HIV Infections epidemiology, HIV Infections virology, Humans, Nepal epidemiology, Phylogeny, Sequence Analysis, DNA, Genotype, HIV-1 classification, HIV-1 genetics

Abstract

Human immunodeficiency virus type 1 (HIV-1) is a major causative agent of acquired immune deficiency syndrome. Subtype C (HIV-1C) is the most prevalent HIV-1 subtype worldwide. Although it is highly prevalent in Nepal, genotypic information on Nepalese HIV-1C is limited. We herein investigated the origin and dynamics of HIV-1C in Nepal. Nearly full-length sequencing of Nepalese HIV-1C strains and phylogenetic analyses were performed. The results obtained showed that Nepalese HIV-1C is closely related to the Indian and southern African strains and the introduction of HIV-1C into Nepal was estimated to be in the mid-1980s. These results suggest that multiple HIV-1C strains entered Nepal in the mid-1980s, and this was followed by a marked increase in the number of infection cases for the next decade. These results reflect the current transmission dynamics of HIV-1C strains in Nepal and provide valuable information for HIV monitoring and vaccine development.

Published

2019

5. Low Frequency of Protease Inhibitor Resistance Mutations and Insertions in HIV-1 Subtype C Protease Inhibitor-Naïve Sequences.

Author

Ledwaba J, Sayed Y, Pillay V, Morris L, and Hunt G

Subjects

HIV Infections drug therapy, HIV Infections epidemiology, HIV Protease genetics, HIV-1 isolation & purification, Humans, Mutation, Mutation Rate, Polymorphism, Genetic, South Africa epidemiology, Drug Resistance, Viral genetics, HIV Infections virology, HIV Protease Inhibitors therapeutic use, HIV-1 genetics

Abstract

Human immunodeficiency virus-1 (HIV-1) protease sequences from 2,225 protease inhibitor (PI)-naïve HIV-1 subtype C-infected individuals collected over a 14-year period were analyzed for polymorphisms. Over 50% of sequences differed from an HIV-1 subtype B consensus sequence at 8 of the 99 amino acids at residues 12, 15, 19, 36, 41, 69, 89, and 93, but not in the functionally important regions. The frequency of primary resistance and accessory mutations occurred in <1% of the sequences. Of note, 11 sequences (0.5%) harbored amino acid insertions between residues 36 and 39, located in the elbow of the flap region. The insertions were found throughout the 13-year period. Occurrence of insertions in subtype C viruses is rare and viruses remain sensitive to currently used PIs (lopinavir/r, atazanavir/r, and darunavir/r). However, ongoing characterization of isolates is required to identify changes that may impact PI treatment since PIs are part of standard SA regimens.

Published

2019

6. HIV type 1 subtype C gag and nef diversity in Southern Africa

Author

Clive M. Gray, Helba Bredell, Hivnet Study Team, Richard M. Donovan, Carolyn Williamson, Darren P. Martin, Arvind Varsani, Joanne van Harmelen, Haynes W. Sheppard, Institute of Infectious Disease and Molecular Medicine, and Faculty of Health Sciences

Subjects

media_common.quotation_subject, Immunology, Population, Molecular Sequence Data, HIV Infections, Biology, Virus, Africa, Southern, Virology, Humans, education, Gene, Phylogeny, media_common, Gag, education.field_of_study, Phylogenetic tree, virus diseases, Genetic Variation, HIV/AIDS: Type 1, Subtype C, biology.organism_classification, Genes, gag, Genes, nef, Infectious Diseases, Lentivirus, HIV-1, Southern Africa, Vaccine failure, Diversity (politics), Founder effect

Abstract

Several HIV-1 subtype C-specific gag- and/or nef-based vaccines are currently intended for clinical trial in southern Africa. Here we provide sequences of 64 gag and 45 nef genes sampled in Malawi, Zambia, Zimbabwe, and South Africa and assess the degree of southern African HIV-1 diversity that will confront these vaccines. Whereas reasonable phylogenetic evidence exists for geographical clustering of subtype C gag and nef sequences from various other parts of the world, there is little evidence of similar population founder effects in the southern African epidemic. The entire breadth of subtype C diversity is represented in the southern African genes suggesting there may be no advantage in producing region- or country-specific subtype C vaccines. We do not, however, find much evidence of intersubtype recombination in the Southern African genes, implying that the likelihood of vaccine failure due to the emergence of intersubtype recombinants is probably low.

Published

2007

7. Short Communication: Comparison of Maxim and Sedia Limiting Antigen Assay Performance for Measuring HIV Incidence.

Author

Schlusser KE, Konikoff J, Kirkpatrick AR, Morrison C, Chipato T, Chen PL, Munjoma M, Eshleman SH, and Laeyendecker O

Subjects

Cross-Sectional Studies, Humans, Incidence, Zimbabwe epidemiology, Epidemiologic Methods, HIV Antigens blood, HIV Infections diagnosis, HIV Infections epidemiology, Serologic Tests methods

Abstract

Accurate methods for cross-sectional incidence estimation are needed for HIV prevention research. The Limiting Antigen Avidity (LAg-Avidity) assay has been marketed by two vendors, Maxim Biomedical and Sedia BioSciences Corporation. Performance differences between the two versions of the assay are unknown. We tested a total 1,410 treatment-naive samples with both versions of the assay. The samples came from 176 seroconverters from the Zimbabwe Hormonal Contraception and HIV Study. The correlation between the two versions of the assay was 0.93 for the optical density (OD) and 0.86 for the normalized OD. As the difference was more pronounced for the normalized OD, the difference in assays can be attributed to the calibrators. The mean duration of recent infection (MDRI), the average time individuals infected <2 years appear recently infected, was determined for both versions using an assay cutoff of 1.5 OD-n alone or in combination with a viral load cutoff of >1,000 copies/ml. The MDRI was 137 days for Sedia and 157 days for Maxim, with a difference of 20 days (95% CI 11-30). The MDRIs decreased to 102 and 120 days with the inclusion of a viral load cutoff of >1,000 copies/ml. These results imply that use of the Sedia LAg-Avidity will result in estimates of incidence ∼13% lower than those using the Maxim LAg-Avidity.

Published

2017