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PloS one
2011;6 (10): e25956.

Origin and dynamics of HIV-1 subtype C infection in India.

Chengli Shen, Jodi Craigo, Ming Ding, Yue Chen, Phalguni Gupta
Author Information
  1. Chengli Shen: Department of Infectious Diseases and Microbiology Graduate School of Public Health, University of Pittsburgh, Pittsburgh, Pennsylvania, United States of America.
PMID: 22016790 DOI: 10.1371/journal.pone.0025956

Abstract

OBJECTIVE: To investigate the geographical origin and evolution dynamics of HIV-1 subtype C infection in India.
DESIGN: Ninety HIV-1 subtype C env gp120 subtype C sequences from India were compared with 312 env gp120 reference subtype C sequences from 27 different countries obtained from Los Alamos HIV database. All the HIV-1 subtype C env gp120 sequences from India were used for the geographical origin analysis and 61 subtype C env gp120 sequences with known sampling year (from 1991 to 2008) were employed to determine the origin of HIV infection in India.
METHODS: Phylogenetic analysis of HIV-1 env sequences was used to investigate the geographical origin and tMRCA of Indian HIV-1 subtype C. Evolutionary parameters including origin date and demographic growth patterns of Indian subtype C were estimated using a Bayesian coalescent-based approach under relaxed molecular clock models.
FINDINGS: The majority of the analyzed Indian and South African HIV-1 subtype C sequences formed a single monophyletic cluster. The most recent common ancestor date was calculated to be 1975.56 (95% HPD, 1968.78-1981.52). Reconstruction of the effective population size revealed three phases of epidemic growth: an initial slow growth, followed by exponential growth, and then a plateau phase approaching present time. Stabilization of the epidemic growth phase correlated with the foundation of National AIDS Control Organization in India.
INTERPRETATION: Indian subtype C originated from a single South African lineage in the middle of 1970s. The current study emphasizes not only the utility of HIV-1 sequence data for epidemiological studies but more notably highlights the effectiveness of community or government intervention strategies in controlling the trend of the epidemic.

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Grants

  1. UL1 TR000005/NCATS NIH HHS
  2. UL1 RR024153/NCRR NIH HHS
  3. R01 HD052436/NICHD NIH HHS
  4. R01HD052436/NICHD NIH HHS
  5. TW001038-06/FIC NIH HHS
  6. D43 TW001038/FIC NIH HHS

MeSH Term

Bayes Theorem
Evolution, Molecular
Geography
HIV Envelope Protein gp120
HIV Infections
HIV-1
Humans
India
Phylogeny

Chemicals

HIV Envelope Protein gp120
gp120 protein, Human immunodeficiency virus 1
Journal Article Research Support, N.I.H., Extramural
Article has an altmetric score of 3

Word Cloud

Created with Highcharts 10.0.0subtypeCHIV-1Indiasequencesoriginenvgp120IndiangrowthgeographicalinfectionepidemicinvestigatedynamicsHIVusedanalysisdateSouthAfricansinglephaseOBJECTIVE:evolutionDESIGN:Ninetycompared312reference27differentcountriesobtainedLosAlamosdatabase61knownsamplingyear19912008employeddetermineMETHODS:PhylogenetictMRCAEvolutionaryparametersincludingdemographicpatternsestimatedusingBayesiancoalescent-basedapproachrelaxedmolecularclockmodelsFINDINGS:majorityanalyzedformedmonophyleticclusterrecentcommonancestorcalculated19755695%HPD196878-198152Reconstructioneffectivepopulationsizerevealedthreephasesgrowth:initialslowfollowedexponentialplateauapproachingpresenttimeStabilizationcorrelatedfoundationNationalAIDSControlOrganizationINTERPRETATION:originatedlineagemiddle1970scurrentstudyemphasizesutilitysequencedataepidemiologicalstudiesnotablyhighlightseffectivenesscommunitygovernmentinterventionstrategiescontrollingtrendOrigin

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