JoAnn Kuruc scite author profile

Despite antiretroviral therapy, proviral latency of human immunodeficiency virus type 1 (HIV-1) remains a principal obstacle to curing the infection [1]. Inducing the expression of latent genomes within resting CD4+ T cells is the primary strategy to clear this reservoir [2]. While histone deacetylase (HDAC) inhibitors such as suberoylanilide hydroxamic acid (SAHA or vorinostat, VOR) can disrupt HIV-1 latency in vitro [3–5], the utility of this approach has never been directly proven in a translational clinical study of HIV-infected patients.Therefore we isolated the circulating resting CD4+ T cells of patients in whom viremia was fully suppressed by antiretroviral therapy (ART), and directly studied the effect of VOR in this latent reservoir. In each of eight patients studied, a single dose of VOR increased both biomarkers of cellular acetylation, and simultaneously induced an increase in HIV RNA expression in resting CD4+ cells (mean increase 4.8-fold). This is the first demonstration that a molecular mechanism known to enforce HIV latency can be therapeutically targeted in man, provides proof-of-concept for HDAC inhibitors as a new therapeutic class, and defines a precise approach to test novel strategies to directly attack and eradicate latent HIV infection.

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HIV-1 Expression Within Resting CD4+ T Cells After Multiple Doses of Vorinostat

Archin¹,

Bateson²,

Tripathy³

et al. 2014

Journal of Infectious Diseases

222

187

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Interval dosing with the HDAC inhibitor vorinostat effectively reverses HIV latency

et al. 2017

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Dual-Affinity Re-Targeting proteins direct T cell–mediated cytolysis of latently HIV-infected cells

Sung¹,

Pickeral²,

Liu³

et al. 2015

122

134

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Enhancement of HIV-specific immunity is likely required to eliminate latent HIV infection. Here, we have developed an immunotherapeutic modality aimed to improve T cell-mediated clearance of HIV-1-infected cells. Specifically, we employed Dual-Affinity Re-Targeting (DART) proteins, which are bispecific, antibody-based molecules that can bind 2 distinct cell-surface molecules simultaneously. We designed DARTs with a monovalent HIV-1 envelope-binding (Env-binding) arm that was derived from broadly binding, antibody-dependent cellular cytotoxicity-mediating antibodies known to bind to HIV-infected target cells coupled to a monovalent CD3 binding arm designed to engage cytolytic effector T cells (referred to as HIVxCD3 DARTs). Thus, these DARTs redirected polyclonal T cells to specifically engage with and kill Env-expressing cells, including CD4+ T cells infected with different HIV-1 subtypes, thereby obviating the requirement for HIV-specific immunity. Using lymphocytes from patients on suppressive antiretroviral therapy (ART), we demonstrated that DARTs mediate CD8+ T cell clearance of CD4+ T cells that are superinfected with the HIV-1 strain JR-CSF or infected with autologous reservoir viruses isolated from HIV-infected-patient resting CD4+ T cells. Moreover, DARTs mediated CD8+ T cell clearance of HIV from resting CD4+ T cell cultures following induction of latent virus expression. Combined with HIV latency reversing agents, HIVxCD3 DARTs have the potential to be effective immunotherapeutic agents to clear latent HIV-1 reservoirs in HIV-infected individuals.

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Clones of infected cells arise early in HIV-infected individuals

Coffin¹,

Wells²,

Zerbato³

et al. 2019

101

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JoAnn Kuruc

Administration of vorinostat disrupts HIV-1 latency in patients on antiretroviral therapy

HIV-1 Expression Within Resting CD4+ T Cells After Multiple Doses of Vorinostat

Interval dosing with the HDAC inhibitor vorinostat effectively reverses HIV latency

Dual-Affinity Re-Targeting proteins direct T cell–mediated cytolysis of latently HIV-infected cells

Clones of infected cells arise early in HIV-infected individuals

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