Jeffrey D. Ahlers scite author profile

Human immunodeficiency virus (HIV) persistence in latently infected resting memory CD4+ T-cells is the major barrier to HIV cure. Cellular histone deacetylases (HDACs) are important in maintaining HIV latency and histone deacetylase inhibitors (HDACi) may reverse latency by activating HIV transcription from latently infected CD4+ T-cells. We performed a single arm, open label, proof-of-concept study in which vorinostat, a pan-HDACi, was administered 400 mg orally once daily for 14 days to 20 HIV-infected individuals on suppressive antiretroviral therapy (ART). The primary endpoint was change in cell associated unspliced (CA-US) HIV RNA in total CD4+ T-cells from blood at day 14. The study is registered at ClinicalTrials.gov (NCT01365065). Vorinostat was safe and well tolerated and there were no dose modifications or study drug discontinuations. CA-US HIV RNA in blood increased significantly in 18/20 patients (90%) with a median fold change from baseline to peak value of 7.4 (IQR 3.4, 9.1). CA-US RNA was significantly elevated 8 hours post drug and remained elevated 70 days after last dose. Significant early changes in expression of genes associated with chromatin remodeling and activation of HIV transcription correlated with the magnitude of increased CA-US HIV RNA. There were no statistically significant changes in plasma HIV RNA, concentration of HIV DNA, integrated DNA, inducible virus in CD4+ T-cells or markers of T-cell activation. Vorinostat induced a significant and sustained increase in HIV transcription from latency in the majority of HIV-infected patients. However, additional interventions will be needed to efficiently induce virus production and ultimately eliminate latently infected cells.Trial RegistrationClinicalTrials.gov NCT01365065

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Shared modes of protection against poxvirus infection by attenuated and conventional smallpox vaccine viruses

Belyakov

Earl

Dzutsev

et al. 2003

Proc. Natl. Acad. Sci. U.S.A.

264

281

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The concern about bioterrorism with smallpox has raised the possibility of widespread vaccination, but the greater prevalence of immunocompromised individuals today requires a safer vaccine, and the mechanisms of protection are not well understood. Here we show that, at sufficient doses, the protection provided by both modified vaccinia Ankara and NYVAC replication-deficient vaccinia viruses, safe in immunocompromised animals, was equivalent to that of the licensed Wyeth vaccine strain against a pathogenic vaccinia virus intranasal challenge of mice. A similar variety and pattern of immune responses were involved in protection induced by modified vaccinia Ankara and Wyeth viruses. For both, antibody was essential to protect against disease, whereas neither effector CD4 ؉ nor CD8 ؉ T cells were necessary or sufficient. However, in the absence of antibody, T cells were necessary and sufficient for survival and recovery. Also, T cells played a greater role in control of sublethal infection in unimmunized animals. These properties, shared with the existing smallpox vaccine, provide a basis for further evaluation of these replication-deficient vaccinia viruses as safer vaccines against smallpox or against complications from vaccinia virus.

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Barriers to a cure for HIV: new ways to target and eradicate HIV-1 reservoirs

et al. 2013

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Antiretroviral therapy for HIV infection requires life-long access and strict adherence to regimens that are both expensive and associated with toxicities. There is growing recognition that a curative intervention will be needed to fully stop the epidemic. The failure to eradicate HIV infection during long-term antiretroviral therapy reflects the intrinsic stability of the viral genome in latently infected CD4+ T cells and other cells and perhaps ongoing low-level viral replication. Heterogeneity in latently infected cell populations and homeostatic proliferation of infected cells may influence the dynamics of virus production and persistence. Chronic immune activation, inflammation and immune dysfunction persist despite potent antiretroviral therapy and likely have important effects on the size and distribution of the viral reservoir. The inability of the immune system to recognize cells harboring latent virus and to eliminate cells actively producing virus represents the biggest challenge to finding a cure. In this perspective, we highlight new approaches toward unraveling the complex virus-host interactions that lead to persistent infection and latency and discuss the rationale for combining novel therapeutic strategies with current antiretroviral treatment options with the goal of curing HIV disease.

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Jeffrey D. Ahlers

Activation of HIV Transcription with Short-Course Vorinostat in HIV-Infected Patients on Suppressive Antiretroviral Therapy

Shared modes of protection against poxvirus infection by attenuated and conventional smallpox vaccine viruses

Barriers to a cure for HIV: new ways to target and eradicate HIV-1 reservoirs

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