Publications by authors named "Matthew Clohosey"

Curative strategies for human immunodeficiency virus (HIV-1) infection are hindered by incomplete characterization of the latent reservoir and limited enhancement of anti-HIV immune responses. In this study, we identified a novel dual role for peripheral and tissue-resident Vδ1 T cells within the gastrointestinal mucosa of virally suppressed people with HIV. Phenotypic analyses identified an increased frequency of highly differentiated, cytotoxic effector Vδ1 T cells that exerted potent inhibition of HIV-1 replication coinciding with direct increases in cytolytic function.

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Antiretroviral therapy (ART) is not curative due to the existence of cellular reservoirs of latent HIV-1 that persist during therapy. Current research efforts to cure HIV-1 infection include "shock and kill" strategies to disrupt latency using small molecules or latency-reversing agents (LRAs) to induce expression of HIV-1 enabling cytotoxic immune cells to eliminate infected cells. The modest success of current LRAs urges the field to identify novel drugs with increased clinical efficacy.

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Article Synopsis
  • Brain microglia (MG) may function as a reservoir for HIV, potentially causing viral rebound when antiretroviral therapy (ART) is stopped, but their ability to carry active HIV has not been established until now.
  • Researchers isolated brain myeloid cells (BrMCs) from both nonhuman primates and humans with HIV undergoing ART, finding that nearly all BrMCs were identified as microglia, which contained detectable HIV or SIV DNA.
  • The study revealed that MG can harbor replication-competent HIV, showing it replicates in the brain and has low genetic diversity, indicating that this virus quickly adapts and spreads within brain regions.
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Article Synopsis
  • Antiretroviral therapy (ART) does not cure HIV-1 due to persistent latent reservoirs; current research focuses on "shock and kill" strategies to reactivate the virus for immune elimination.
  • Aminobisphosphonates (N-BPs), commonly used for bone diseases, have been shown in recent studies to effectively reactivate latent HIV-1, achieving results similar to established T cell activators.
  • Preliminary findings suggest that N-BPs activate immune responses and induce HIV-1 expression, warranting further research in controlled clinical trials, potentially alongside therapeutic vaccination.
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We tested the combination of a broadly neutralizing HIV antibody with the latency reversal agent vorinostat (VOR). Eight participants received 2 month-long cycles of VRC07-523LS with VOR. Low-level viremia, resting CD4+ T-cell-associated HIV RNA (rca-RNA) was measured, and intact proviral DNA assay (IPDA) and quantitative viral outgrowth assay (QVOA) were performed at baseline and posttreatment.

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Crosstalk between innate and adaptive pathways is a critical component to developing an effective, lasting immune response. Among natural effector cells, innate-like γδ T cells promote immunity by facilitating communication between the two compartments and exerting cytotoxic effector functions. Dysregulation of γδ T cell populations is a byproduct of primary Humanimmunodeficiency virus (HIV) infection.

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Objective: To study the contribution of γδ T cells to the persistent HIV reservoir.

Design: Fifteen HIV-seropositive individuals on suppressive ART were included. We performed parallel quantitative viral outgrowth assays (QVOA) of resting CD4 T (rCD4) cells in the presence or absence of γδ T cells.

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Adoptive T cell therapy has had dramatic successes in the treatment of virus-related malignancies and infections following hematopoietic stem cell transplantation. We adapted this method to produce ex vivo expanded HIV-specific T cells (HXTCs), with the long-term goal of using HXTCs as part of strategies to clear persistent HIV infection. In this phase 1 proof-of-concept study (NCT02208167), we administered HXTCs to antiretroviral therapy (ART)-suppressed, HIV-infected participants.

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Current strategies aimed to cure HIV infection are based on combined efforts to reactivate the virus from latency and improve immune effector cell function to clear infected cells. These strategies are primarily focused on CD8+ T cells and approaches are challenging due to insufficient HIV antigen production from infected cells and poor HIV-specific CD8+ T cells. γδ T cells represent a unique subset of effector T cells that can traffic to tissues, and selectively target cancer or virally infected cells without requiring MHC presentation.

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