Longitudinal study reveals HIV-1–infected CD4+ T cell dynamics during long-term antiretroviral therapy
Annukka A.R. Antar, Katharine M. Jenike, Sunyoung Jang, Danielle N. Rigau, Daniel B. Reeves, Rebecca Hoh, Melissa R. Krone, Jeanne C. Keruly, Richard D. Moore, Joshua T. Schiffer, Bareng A.S. Nonyane, Frederick M. Hecht, Steven G. Deeks, Janet D. Siliciano, Ya-Chi Ho, Robert F. Siliciano
Annukka A.R. Antar, Katharine M. Jenike, Sunyoung Jang, Danielle N. Rigau, Daniel B. Reeves, Rebecca Hoh, Melissa R. Krone, Jeanne C. Keruly, Richard D. Moore, Joshua T. Schiffer, Bareng A.S. Nonyane, Frederick M. Hecht, Steven G. Deeks, Janet D. Siliciano, Ya-Chi Ho, Robert F. Siliciano
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Research Article AIDS/HIV

Longitudinal study reveals HIV-1–infected CD4+ T cell dynamics during long-term antiretroviral therapy

Abstract

Proliferation of CD4+ T cells harboring HIV-1 proviruses is a major contributor to viral persistence in people on antiretroviral therapy (ART). To determine whether differential rates of clonal proliferation or HIV-1–specific cytotoxic T lymphocyte (CTL) pressure shape the provirus landscape, we performed an intact proviral DNA assay (IPDA) and obtained 661 near–full-length provirus sequences from 8 individuals with suppressed viral loads on ART at time points 7 years apart. We observed slow decay of intact proviruses but no changes in the proportions of various types of defective proviruses. The proportion of intact proviruses in expanded clones was similar to that of defective proviruses in clones. Intact proviruses observed in clones did not have more escaped CTL epitopes than intact proviruses observed as singlets. Concordantly, total proviruses at later time points or observed in clones were not enriched in escaped or unrecognized epitopes. Three individuals with natural control of HIV-1 infection (controllers) on ART, included because controllers have strong HIV-1–specific CTL responses, had a smaller proportion of intact proviruses but a distribution of defective provirus types and escaped or unrecognized epitopes similar to that of the other individuals. This work suggests that CTL selection does not significantly check clonal proliferation of infected cells or greatly alter the provirus landscape in people on ART.

Authors

Annukka A.R. Antar, Katharine M. Jenike, Sunyoung Jang, Danielle N. Rigau, Daniel B. Reeves, Rebecca Hoh, Melissa R. Krone, Jeanne C. Keruly, Richard D. Moore, Joshua T. Schiffer, Bareng A.S. Nonyane, Frederick M. Hecht, Steven G. Deeks, Janet D. Siliciano, Ya-Chi Ho, Robert F. Siliciano

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Figure 2

The distribution of provirus types appears similar over long periods of time on suppressive ART by near-full-length sequencing.

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The distribution of provirus types appears similar over long periods of ...
(A) Summary of 270 proviral sequences (time point 1, T1) and 391 proviral sequences (T2/3) from 8 individuals maintained on long-term suppressive ART. Defective proviruses are categorized by type of defect. (B) Percentage of intact and various types of defective proviruses relative to total proviruses from each individual at the indicated time point, with mean and SEM shown in black. Left, T1; Right, T2/3. A and B share a color-coded figure legend. (C) Percentage of each indicated provirus type or grouping among total proviruses at the indicated time point for each individual. No intact proviruses were observed in the controllers on ART. (B and C) Paired-sample t tests with Bonferroni’s correction were applied. No provirus type or grouping change over time was statistically significant. CPs, chronic progressors; Ctrls, controllers; INT, intact; PD, deletion within packaging signal region; 5D, deletion within 5′ half of HIV-1 genome; 3D, deletion within 3′ half of HIV-1 genome; 2D, two or more deletions; CD, deletion spans center of genome and less than 75% of genome length; LD, deletion of more than 75% of HIV-1 genome length; D, unmapped deletion; HM, hypermutated; FL, full-length; FS, intact save for 1 or more frameshifts affecting genes required for replication; INV, deleted with inverted sequence.