HIV transmission dynamics and population-wide drug resistance in rural South Africa

Steven A. Kemp; Kimia Kamelian; Diego F. Cuadros; PANGEA Consortium; Vukuzazi Team; Mark T. K. Cheng; Elphas Okango; Willem Hanekom; Thumbi Ndung’u; Deenan Pillay; David Bonsall; Emily B. Wong; Frank Tanser; Mark J. Siedner; Ravindra K. Gupta

doi:10.1038/s41467-024-47254-z

Nature Communications (Apr 2024)

HIV transmission dynamics and population-wide drug resistance in rural South Africa

Steven A. Kemp,
Kimia Kamelian,
Diego F. Cuadros,
PANGEA Consortium,
Vukuzazi Team,
Mark T. K. Cheng,
Elphas Okango,
Willem Hanekom,
Thumbi Ndung’u,
Deenan Pillay,
David Bonsall,
Emily B. Wong,
Frank Tanser,
Mark J. Siedner,
Ravindra K. Gupta

Affiliations

Steven A. Kemp: Department of Medicine, University of Cambridge
Kimia Kamelian: Department of Medicine, University of Cambridge
Diego F. Cuadros: Digital Epidemiology Laboratory, Digital Futures, University of Cincinnati
PANGEA Consortium
Vukuzazi Team
Mark T. K. Cheng: Department of Medicine, University of Cambridge
Elphas Okango: Africa Health Research Institute, KwaZulu-Natal
Willem Hanekom: Africa Health Research Institute, KwaZulu-Natal
Thumbi Ndung’u: Africa Health Research Institute, KwaZulu-Natal
Deenan Pillay: University College London
David Bonsall: Pandemic Science Institute, Big Data Institute, University of Oxford
Emily B. Wong: Africa Health Research Institute, KwaZulu-Natal
Frank Tanser: University of Stellenbosch
Mark J. Siedner: Africa Health Research Institute, KwaZulu-Natal
Ravindra K. Gupta: Department of Medicine, University of Cambridge

DOI: https://doi.org/10.1038/s41467-024-47254-z
Journal volume & issue: Vol. 15, no. 1
pp. 1 – 13

Abstract

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Abstract Despite expanded antiretroviral therapy (ART) in South Africa, HIV-1 transmission persists. Integrase strand transfer inhibitors (INSTI) and long-acting injectables offer potential for superior viral suppression, but pre-existing drug resistance could threaten their effectiveness. In a community-based study in rural KwaZulu-Natal, prior to widespread INSTI usage, we enroled 18,025 individuals to characterise HIV-1 drug resistance and transmission networks to inform public health strategies. HIV testing and reflex viral load quantification were performed, with deep sequencing (20% variant threshold) used to detect resistance mutations. Phylogenetic and geospatial analyses characterised transmission clusters. One-third of participants were HIV-positive, with 21.7% having detectable viral loads; 62.1% of those with detectable viral loads were ART-naïve. Resistance to older reverse transcriptase (RT)-targeting drugs was found, but INSTI resistance remained low (<1%). Non-nucleoside reverse transcriptase inhibitor (NNRTI) resistance, particularly to rilpivirine (RPV) even in ART-naïve individuals, was concerning. Twenty percent of sequenced individuals belonged to transmission clusters, with geographic analysis highlighting higher clustering in peripheral and rural areas. Our findings suggest promise for INSTI-based strategies in this setting but underscore the need for RPV resistance screening before implementing long-acting cabotegravir (CAB) + RPV. The significant clustering emphasises the importance of geographically targeted interventions to effectively curb HIV-1 transmission.

Published in Nature Communications

ISSN: 2041-1723 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science
Website: https://www.nature.com/ncomms/

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