HIV infection results in clonal expansions containing integrations within pathogenesis-related biological pathways
Kevin G. Haworth, … , Jennifer E. Adair, Hans-Peter Kiem
Kevin G. Haworth, … , Jennifer E. Adair, Hans-Peter Kiem
Published July 12, 2018
Citation Information: JCI Insight. 2018;3(13):e99127. https://doi.org/10.1172/jci.insight.99127.
View: Text | PDF
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

×

Figure 4

Specific chromosomal regions are enriched for viral integration sites.

Options: View larger image (or click on image) Download as PowerPoint
Specific chromosomal regions are enriched for viral integration sites. T...
The HIV in vivo IS data set was directly compared with in vitro IS to determine if there were specific locations within the genome that were significantly enriched for IS during in vivo infection. (A) Dot plot representing significantly enriched 25 kB bin segments in 1 data set compared with the other. Bins in the positive direction on y axis were enriched for during in vivo infection (685 bins), while bins in the negative direction were enriched for during in vitro infections (144 bins). The x axis represents relative chromosomal position but is not normalized for chromosome length. Top 4 bins enriched in vivo are labeled with the genes contained at that locus. Horizontal red lines indicate the 99th percentile of simulated data, similar to P = 0.01. (B) Circos plot highlighting the bin locations for each enriched data set. Bins containing integrations enriched during in vivo infection are plotted in gray, and those enriched during in vitro infection are plotted in black. Chromosomes represented on exterior of ring.