Leonard Chávez scite author profile

Highly active antiretroviral therapy (HAART) suppresses human immunodeficiency virus (HIV) replication to undetectable levels but cannot fully eradicate the virus because a small reservoir of CD4+ T cells remains latently infected. Since HIV efficiently infects only activated CD4+ T cells and since latent HIV primarily resides in resting CD4+ T cells, it is generally assumed that latency is established when a productively infected cell recycles to a resting state, trapping the virus in a latent state. In this study, we use a dual reporter virus—HIV Duo-Fluo I, which identifies latently infected cells immediately after infection—to investigate how T cell activation affects the estab-lishment of HIV latency. We show that HIV latency can arise from the direct infection of both resting and activated CD4+ T cells. Importantly, returning productively infected cells to a resting state is not associated with a significant silencing of the integrated HIV. We further show that resting CD4+ T cells from human lymphoid tissue (tonsil, spleen) show increased latency after infection when compared to peripheral blood. Our findings raise significant questions regarding the most commonly accepted model for the establishment of latent HIV and suggest that infection of both resting and activated primary CD4+ T cells produce latency.

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Reactivation of latent HIV by histone deacetylase inhibitors

Shirakawa

Chávez

Hakre

et al. 2013

Trends in Microbiology

191

147

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Latent HIV persists in CD4+ T cells in infected patients under antiretroviral therapy (ART). Latency is associated with transcriptional silencing of the integrated provirus and driven, at least in part, by histone deacetylases (HDACs), a family of chromatin associated proteins that regulate histone acetylation and the accessibility of DNA to transcription factors. Remarkably, inhibition of HDACs is sufficient to reactivate a fraction of latent HIV in a variety of experimental systems. This basic observation led to the shock and kill idea that forcing the transcriptional activation of HIV might lead to virus expression, to virus-or host-induced cell death of the reactivated cells, and to the eradication of the pool of latently infected cells. Such intervention might possibly lead to a cure for HIV infected patients. Here, we review the basic biology of HDACs and their inhibitors, the role of HDACs in HIV latency and recent efforts to use HDAC inhibitors to reactivate latent HIV in vitro and in vivo.

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The Exonuclease and Host Shutoff Functions of the SOX Protein of Kaposi's Sarcoma-Associated Herpesvirus Are Genetically Separable

Glaunsinger

Chávez

Ganem

2005

J Virol

103

144

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The Kaposi's sarcoma-associated herpesvirus (KSHV) SOX protein, encoded by ORF37, promotes shutoff of host cell gene expression during lytic viral replication by dramatically impairing mRNA accumulation. SOX is the KSHV homolog of the alkaline exonuclease of other herpesviruses, which has been shown to function as a DNase involved in processing and packaging the viral genome. Although the exonuclease activity of these proteins is widely conserved across all herpesviruses, the host shutoff activity observed for KSHV SOX is not. We show here that SOX expression sharply reduces the half-life of target mRNAs. Extensive mutational analysis reveals that the DNase and host shutoff activities of SOX are genetically separable. Lesions affecting the DNase activity cluster in conserved regions of the protein, but residues critical for mRNA degradation are not conserved across the viral family. Additionally, we present evidence suggesting that the two different functions of SOX occur within distinct cellular compartments-DNase activity in the nucleus and host shutoff activity in the cytoplasm.

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Leonard Chávez

HIV Latency Is Established Directly and Early in Both Resting and Activated Primary CD4 T Cells

Reactivation of latent HIV by histone deacetylase inhibitors

The Exonuclease and Host Shutoff Functions of the SOX Protein of Kaposi's Sarcoma-Associated Herpesvirus Are Genetically Separable

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