HIV infection results in clonal expansions containing integrations within pathogenesis-related biological pathways
Kevin G. Haworth, Lauren E. Schefter, Zachary K. Norgaard, Christina Ironside, Jennifer E. Adair, Hans-Peter Kiem
Kevin G. Haworth, Lauren E. Schefter, Zachary K. Norgaard, Christina Ironside, Jennifer E. Adair, Hans-Peter Kiem
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Research Article AIDS/HIV Virology

HIV infection results in clonal expansions containing integrations within pathogenesis-related biological pathways

Abstract

The genomic integration of HIV into cells results in long-term persistence of virally infected cell populations. This integration event acts as a heritable mark that can be tracked to monitor infected cells that persist over time. Previous reports have documented clonal expansion in people and have linked them to proto-oncogenes; however, their significance or contribution to the latent reservoir has remained unclear. Here, we demonstrate that a directed pattern of clonal expansion occurs in vivo, specifically in gene pathways important for viral replication and persistence. These biological processes include cellular division, transcriptional regulation, RNA processing, and posttranslational modification pathways. This indicates preferential expansion when integration events occur within genes or biological pathways beneficial for HIV replication and persistence. Additionally, these expansions occur quickly during unsuppressed viral replication in vivo, reinforcing the importance of early intervention for individuals to limit reservoir seeding of clonally expanded HIV-infected cells.

Authors

Kevin G. Haworth, Lauren E. Schefter, Zachary K. Norgaard, Christina Ironside, Jennifer E. Adair, Hans-Peter Kiem

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Figure 3

HIV integration sites cluster in specific chromosomal regions.

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HIV integration sites cluster in specific chromosomal regions. Integrati...
Integration sites identified in either in vivo NSG mouse experiments or in vitro tissue culture infections were analyzed. (A) Circos plot depicting IS sites across the genome. Each chromosome is represented on the exterior of the ring and is broken down into sequential bins, each 25 kB in size. The total number of unique integrations occurring within each bin is represented by the height of histogram bars, with black bars radiating outward depicting integrations found in vitro (233,684 IS) and red bars radiating inward depicting those found in vivo (6,229 IS). Concentric rings function as a y axis and have incremental values of 35 for the black histogram and 2 for the red histogram. (B) Specific location of integration relative to chromosomal length is plotted for either in vitro infections (black line) or in vivo infections (red line). The x axis represents relative chromosomal position with 0.25, meaning 25% of the distance from beginning of chromosome, and y axis represents the frequency of observing an integration at each position throughout the chromosome.