Epigenetic silencing of CD4 expression in nonpathogenic SIV infection in African green monkeys
Joseph C. Mudd, Stephen Lai, Sanjana Shah, Andrew Rahmberg, Jacob K. Flynn, Carly E. Starke, Molly R. Perkins, Amy Ransier, Sam Darko, Daniel C. Douek, Vanessa M. Hirsch, Mark Cameron, Jason M. Brenchley
Joseph C. Mudd, Stephen Lai, Sanjana Shah, Andrew Rahmberg, Jacob K. Flynn, Carly E. Starke, Molly R. Perkins, Amy Ransier, Sam Darko, Daniel C. Douek, Vanessa M. Hirsch, Mark Cameron, Jason M. Brenchley
View: Text | PDF
Research Article AIDS/HIV Immunology

Epigenetic silencing of CD4 expression in nonpathogenic SIV infection in African green monkeys

Abstract

African green monkeys (AGMs) are natural hosts of SIV that postthymically downregulate CD4 to maintain a large population of CD4–CD8aa+ virus-resistant cells with Th functionality, which can result in AGMs becoming apparently cured of SIVagm infection. To understand the mechanisms of this process, we performed genome-wide transcriptional analysis on T cells induced to downregulate CD4 in vitro from AGMs and closely related patas monkeys and T cells that maintain CD4 expression from rhesus macaques. In T cells that downregulated CD4, pathway analysis revealed an atypical regulation of the DNA methylation machinery, which was reversible when pharmacologically targeted with 5-aza-2 deoxycytidine. This signature was driven largely by the dioxygenase TET3, which became downregulated with loss of CD4 expression. CpG motifs within the AGM CD4 promoter region became methylated during CD4 downregulation in vitro and were stably imprinted in AGM CD4–CD8aa+ T cells sorted directly ex vivo. These results suggest that AGMs use epigenetic mechanisms to durably silence the CD4 gene. Manipulation of these mechanisms could provide avenues for modulating SIV and HIV-1 entry receptor expression in hosts that become progressively infected with SIV, which could lead to novel therapeutic interventions aimed to reduce HIV viremia in vivo.

Authors

Joseph C. Mudd, Stephen Lai, Sanjana Shah, Andrew Rahmberg, Jacob K. Flynn, Carly E. Starke, Molly R. Perkins, Amy Ransier, Sam Darko, Daniel C. Douek, Vanessa M. Hirsch, Mark Cameron, Jason M. Brenchley

×

Figure 1

Uniquely regulated genes in natural host CD4+ T cells induced to downregulate CD4 in vitro.

Options: View larger image (or click on image) Download as PowerPoint
Uniquely regulated genes in natural host CD4+ T cells induced to downreg...
(A) Representative flow dot plot of purified AGM, patas, or rhesus macaque CD4+ T cells that were exposed to staphylococcus enterotoxin B and HLA-DR+CD11c+ antigen-presenting cells for 5 days. (B) Principal component analysis plot of transcribed genes from AGM CFSE+CD69 (n = 3), CFSE+CD69+ (n = 3), CFSECD4+ (n = 4), CFSECD4 (n = 4) T cell populations, based on transcript counts per million (CPM), calculated by Deseq2. The numbers in parenthesis on each axis represent the percentage of variance that each principle component contributes to the data set. (C) Euler diagram of DEGs in pairwise comparisons of CFSECD4 (AGM, patas) or CFSECD4+ (Rhesus) cells versus the CFSE+CD69CD4+ population of each species. Significant DEGs were calculated by the Wald test and corrected for multiple comparisons (Benjamini-Hochberg) in Deseq2. (D) Heatmap depicting transcript counts of genes common to natural hosts yet unique from rhesus, normalized by row Z-score. Genes known to play a role in disease nonprogression are annotated. Red and blue coloring represent genes that are upregulated and downregulated, respectively. Statistical comparisons of (E) CD4 and (F) CD8A log among sorted populations of AGM, patas, and rhesus. Statistical significance was calculated by the Wald test and corrected for multiple comparisons (Benjamini-Hochberg) in Deseq2.