Evaluating Whole HIV-1 Genome Sequence for Estimation of Incidence and Migration in a Rural South African Community

Overview

Journal Wellcome Open Res

Specialty Biomedical Engineering

Date 2023 Jun 19

PMID 37333843

Authors

Fabricia F Nascimento

Manon Ragonnet-Cronin

Tanya Golubchik

Siva Danaviah

Anne Derache

Christophe Fraser

Erik Volz

Affiliations

Soon will be listed here.

Abstract

South Africa has the largest number of people living with HIV (PLWHIV) in the world, with HIV prevalence and transmission patterns varying greatly between provinces. Transmission between regions is still poorly understood, but phylodynamics of HIV-1 evolution can reveal how many infections are attributable to contacts outside a given community. We analysed whole genome HIV-1 genetic sequences to estimate incidence and the proportion of transmissions between communities in Hlabisa, a rural South African community. We separately analysed HIV-1 for , , and genes sampled from 2,503 PLWHIV. We estimated time-scaled phylogenies by maximum likelihood under a molecular clock model. Phylodynamic models were fitted to time-scaled trees to estimate transmission rates, effective number of infections, incidence through time, and the proportion of infections imported to Hlabisa. We also partitioned time-scaled phylogenies with significantly different distributions of coalescent times. Phylodynamic analyses showed similar trends in epidemic growth rates between 1980 and 1990. Model-based estimates of incidence and effective number of infections were consistent across genes. Parameter estimates with were generally smaller than those estimated with and . When estimating the proportions of new infections in Hlabisa from immigration or transmission from external sources, our posterior median estimates were 85% (95% credible interval (CI) = 78%-92%) for , 62% (CI = 40%-78%) for , and 77% (CI = 58%-90%) for in 2015. Analysis of phylogenetic partitions by gene showed that most close global reference sequences clustered within a single partition. This suggests local evolving epidemics or potential unmeasured heterogeneity in the population. We estimated consistent epidemic dynamic trends for , and genes using phylodynamic models. There was a high probability that new infections were not attributable to endogenous transmission within Hlabisa, suggesting high inter-connectedness between communities in rural South Africa.

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