Abstract
BackgroundLatent HIV-1 reservoirs are identified as one of the major challenges to achieve HIV-1 cure. Currently available strategies are associated with wide variability in outcomes both in patients and CD4+ T cell models. This underlines the critical need to develop innovative strategies to predict and recognize ways that could result in better reactivation and eventual elimination of latent HIV-1 reservoirs.Results and discussionIn this study, we combined genome wide transcriptome datasets post activation with Systems Biology approach (Signaling and Dynamic Regulatory Events Miner, SDREM analyses) to reconstruct a dynamic signaling and regulatory network involved in reactivation mediated by specific activators using a latent cell line. This approach identified several critical regulators for each treatment, which were confirmed in follow-up validation studies using small molecule inhibitors. Results indicate that signaling pathways involving JNK and related factors as predicted by SDREM are essential for virus reactivation by suberoylanilide hydroxamic acid. ERK1/2 and NF-κB pathways have the foremost role in reactivation with prostratin and TNF-α, respectively. JAK-STAT pathway has a central role in HIV-1 transcription. Additional evaluation, using other latent J-Lat cell clones and primary T cell model, also confirmed that many of the cellular factors associated with latency reversing agents are similar, though minor differences are identified. JAK-STAT and NF-κB related pathways are critical for reversal of HIV-1 latency in primary resting T cells.ConclusionThese results validate our combinatorial approach to predict the regulatory cellular factors and pathways responsible for HIV-1 reactivation in latent HIV-1 harboring cell line models. JAK-STAT have a role in reversal of latency in all the HIV-1 latency models tested, including primary CD4+ T cells, with additional cellular pathways such as NF-κB, JNK and ERK 1/2 that may have complementary role in reversal of HIV-1 latency.Electronic supplementary materialThe online version of this article (doi:10.1186/s12977-015-0211-3) contains supplementary material, which is available to authorized users.
Highlights
Latent human immunodeficiency virus type 1 (HIV-1) reservoirs are identified as one of the major challenges to achieve HIV-1 cure
Multiple complementary factors are involved in reversal of latent HIV‐1 Comparative studies using multiple activators to reactivate HIV-1 from latency have resulted in different levels of virus reactivation [43,44,45,46], suggesting a role for multiple factors in virus reactivation
We used a wellcharacterized ACH-2 T cell line based HIV-1 latency model as our model cell line to validate the Systems Biology approach to identify the cellular factors and pathways involved in reversal of latent HIV-1 by suberoylanilide hydroxamic acid (SAHA), prostratin and tumor necrosis factor-α (TNF-α)
Summary
Latent HIV-1 reservoirs are identified as one of the major challenges to achieve HIV-1 cure. Available strategies are associated with wide variability in outcomes both in patients and CD4+ T cell models. This underlines the critical need to develop innovative strategies to predict and recognize ways that could result in better reactivation and eventual elimination of latent HIV-1 reservoirs. Development of combined antiretroviral therapy (cART) has made it possible to treat and control HIV-1 infection in infected individuals Various methods have been proposed to activate and kill the latently infected cells; these strategies have resulted in variable outcomes in clinical trials, indicating that a better understanding of the factors and/or mechanisms regulating reactivation of latent virus is needed
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