Small-molecule screening using a human primary cell model of HIV latency identifies compounds that reverse latency without cellular activation
Hung-Chih Yang, Sifei Xing, Liang Shan, Karen O’Connell, Jason Dinoso, Anding Shen, Yan Zhou, Cynthia K. Shrum, Yefei Han, Jun O. Liu, Hao Zhang, Joseph B. Margolick, Robert F. Siliciano
Hung-Chih Yang, Sifei Xing, Liang Shan, Karen O’Connell, Jason Dinoso, Anding Shen, Yan Zhou, Cynthia K. Shrum, Yefei Han, Jun O. Liu, Hao Zhang, Joseph B. Margolick, Robert F. Siliciano
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Technical Advance AIDS/HIV

Small-molecule screening using a human primary cell model of HIV latency identifies compounds that reverse latency without cellular activation

Abstract

The development of highly active antiretroviral therapy (HAART) to treat individuals infected with HIV-1 has dramatically improved patient outcomes, but HAART still fails to cure the infection. The latent viral reservoir in resting CD4+ T cells is a major barrier to virus eradication. Elimination of this reservoir requires reactivation of the latent virus. However, strategies for reactivating HIV-1 through nonspecific T cell activation have clinically unacceptable toxicities. We describe here the development of what we believe to be a novel in vitro model of HIV-1 latency that we used to search for compounds that can reverse latency. Human primary CD4+ T cells were transduced with the prosurvival molecule Bcl-2, and the resulting cells were shown to recapitulate the quiescent state of resting CD4+ T cells in vivo. Using this model system, we screened small-molecule libraries and identified a compound that reactivated latent HIV-1 without inducing global T cell activation, 5-hydroxynaphthalene-1,4-dione (5HN). Unlike previously described latency-reversing agents, 5HN activated latent HIV-1 through ROS and NF-κB without affecting nuclear factor of activated T cells (NFAT) and PKC, demonstrating that TCR pathways can be dissected and utilized to purge latent virus. Our study expands the number of classes of latency-reversing therapeutics and demonstrates the utility of this in vitro model for finding strategies to eradicate HIV-1 infection.

Authors

Hung-Chih Yang, Sifei Xing, Liang Shan, Karen O’Connell, Jason Dinoso, Anding Shen, Yan Zhou, Cynthia K. Shrum, Yefei Han, Jun O. Liu, Hao Zhang, Joseph B. Margolick, Robert F. Siliciano

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Figure 7

5HN does not activate CD4+ T cells.

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5HN does not activate CD4+ T cells. (A) Effects of 5HN on the expres...
(A) Effects of 5HN on the expression of activation markers in primary resting CD4+ T cells. Freshly isolated CD4+ T cells were treated with the indicated concentrations of 5HN or with anti-CD3 plus anti-CD28 antibodies for 3 days. Expression of activation markers was quantified by flow cytometry. The values indicated the percentage of cells expressing individual markers. Data are mean ± SD of triplicate samples from 1 of 2 independent experiments. (B) Effects of 5HN on transcription of IL-2 and IFN-γ genes. Resting Bcl-2–transduced CD4+ T cells were left unstimulated or were stimulated with 5HN or anti-CD3/anti-CD28. Levels of IL-2 and IFN-γ transcripts in total cellular RNA were quantified by real-time RT-PCR and normalized to β-actin mRNA levels. The fold change relative to unstimulated samples is shown. Data are mean ± SD of triplicate samples from 1 of 2 independent experiments. (C) Effect of 5HN on the susceptibility of freshly isolated resting CD4+ T cells to HIV-1 infection. Cells were incubated with medium alone, 5HN, or anti-CD3/anti-CD28 antibodies for 3 days and were then infected with reporter virus NL4-3-ΔE-GFP. The number in each plot indicates the percentage of GFP-positive cells quantified by flow cytometry. (D) The effects of 5HN on the proliferation of latently infected cells. Cell proliferation was determined using Hoechst 33342/pyronin Y staining for DNA/RNA. The controls for the resting and activated cells are the same as in Figure 2B. The percentage of cells in each quadrant is indicated.