HIV-Induced Apoptosis: Host Defense and Viral Strategy.
David Chisompola, Phinnoty Mwansa, John Nzobokela, Magdalene Ameka, Annet Kirabo, Antentor Hinton, Sepiso K Masenga
Abstract
Open AccessHIV-induced apoptosis is a contradictory complicated phenomenon that occurs at the intersection of viral persistence and host defense. HIV primarily affects CD4 T cells during an infection, causing widespread immune cell death through both direct infection and indirect (bystander) mechanisms. This immunopathologic process is caused by viral proteins such as Tat, Nef, Env, and Vpr, which modify host signaling cascades such as the PI3K/Akt, p53, NF-κB, and mitochondrial pathways. Dysregulation of pro- and anti-apoptotic mediators, particularly Bax, Bcl-2, and caspase activation, which results in mitochondrial depolarization, oxidative stress, and cytochrome c release, exacerbates immune depletion. Although apoptosis serves as a host antiviral mechanism to limit viral replication and spread, HIV exploits it to evade immune surveillance and establish chronic infection. HIV pathogenesis, which includes lymphoid tissue destruction, microbial translocation, and persistent inflammation, is significantly influenced by apoptosis of both infected and bystander cells. Furthermore, alterations in death receptor signaling (Fas/FasL and TNF pathways) and mitochondrial dysfunction highlight the delicate balance between immune defense and viral manipulation. Despite considerable progress in antiretroviral therapy, immune restoration is still incomplete due to ongoing apoptotic loss and immune exhaustion. This review examines the biological mechanisms underlying HIV-induced apoptosis, evaluates the dual role of cell death in host defense versus viral persistence, and highlights novel therapeutic targets intended to restore immune homeostasis and reduce HIV-associated immunopathology.