Dysregulation of Gamma Delta T-Cells, CD8+ T Cells, CD4+ T Cells, and Natural Killer Cells in Brain Pathology: Understanding HIV-Induced Impairment and Exploring Targeted GSH Therapy.

ABSTRACT

This review comprehensively explores the dysregulation of Gamma Delta T-cells, CD8+ T Cells, and Natural Killer T Cells in the context of Human Immunodeficiency Virus (HIV) infection and its implications for brain pathology. It encompasses an overview of the HIV disease process, immune cell dysregulation, association with neurological diseases, and the critical role of Glutathione (GSH) in T-cell function. The alterations in Gamma Delta T-cells during chronic infection, the intricate dynamics of Vδ1 and Vδ2 subsets, and the potential of Vγ9Vδ2 T cells in inhibiting HIV replication are discussed. Additionally, the review addresses the exhaustion, impaired cytotoxicity, and premature senescence of CD8+ T cells, as well as the dysregulation of Natural Killer Cells (NKCs) and their impact on overall immune system activity. Furthermore, it examines the role of Gamma Delta (γδ) T-cells in brain injuries, infections, and tumors and highlights the therapeutic implications of elevated GSH levels in promoting a T helper 1 (Th1) immune response. However, HIV-infected patients with decreased GSH exhibit a T helper 2 (Th2) bias, compromising protection against intracellular pathogens. Finally, the review discusses studies in murine models demonstrating the impact of GSH levels on immune responses and underscores the therapeutic potential of targeting GSH to enhance immunity in HIV patients. Overall, this review provides valuable insights into the complex interplay between immune dysregulation, GSH levels, and HIV-associated brain pathology, offering insights into potential therapeutic avenues for mitigating immune compromise and neurological impairments in HIV patients.