The HIV-1 Reservoir in Eight Patients on Long-term Suppressive Antiretroviral Therapy is Stable with Few Genetic Changes over Time

Overview

Journal Proc Natl Acad Sci U S A

Specialty Science

Date 2013 Nov 27

PMID 24277811

Citations 187

Authors

Lina Josefsson

Susanne von Stockenstrom

Nuno R Faria

Elizabeth Sinclair

Peter Bacchetti

Maudi Killian

Lorrie Epling

Alice Tan

Terence Ho

Philippe Lemey

Wei Shao

Peter W Hunt

Ma Somsouk

Will Wylie

Daniel C Douek

Lisa Loeb

Jeff Custer

Rebecca Hoh

Lauren Poole

Steven G Deeks

Frederick Hecht

Sarah Palmer

Affiliations

Soon will be listed here.

Abstract

The source and dynamics of persistent HIV-1 during long-term combinational antiretroviral therapy (cART) are critical to understanding the barriers to curing HIV-1 infection. To address this issue, we isolated and genetically characterized HIV-1 DNA from naïve and memory T cells from peripheral blood and gut-associated lymphoid tissue (GALT) from eight patients after 4-12 y of suppressive cART. Our detailed analysis of these eight patients indicates that persistent HIV-1 in peripheral blood and GALT is found primarily in memory CD4(+) T cells [CD45RO(+)/CD27((+/-))]. The HIV-1 infection frequency of CD4(+) T cells from peripheral blood and GALT was higher in patients who initiated treatment during chronic compared with acute/early infection, indicating that early initiation of therapy results in lower HIV-1 reservoir size in blood and gut. Phylogenetic analysis revealed an HIV-1 genetic change between RNA sequences isolated before initiation of cART and intracellular HIV-1 sequences from the T-cell subsets after 4-12 y of suppressive cART in four of the eight patients. However, evolutionary rate analyses estimated no greater than three nucleotide substitutions per gene region analyzed during all of the 4-12 y of suppressive therapy. We also identified a clearly replication-incompetent viral sequence in multiple memory T cells in one patient, strongly supporting asynchronous cell replication of a cell containing integrated HIV-1 DNA as the source. This study indicates that persistence of a remarkably stable population of infected memory cells will be the primary barrier to a cure, and, with little evidence of viral replication, this population could be maintained by homeostatic cell proliferation or other processes.

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