Application of Memory Natural Killer Cells in HIV Vaccine

Abstract

Human immunodeficiency virus (HIV) is a formidable infection targeting the intricate defense mechanisms of the human body, primarily focusing its assault on the vital white blood cells known as CD4 cells. HIV impairs these CD4 cells, reducing resistance to opportunistic infections. In 2022, 630,000 people died from HIV-related causes globally due to the lack of preventative vaccines and effective treatment. The pursuit of an effective HIV vaccine remains a critical endeavor in global health, necessitating innovative strategies that can elicit robust and durable immune responses. Natural killer (NK) cells, renowned for their swift and inherent cytotoxic prowess, constitute a critical element of innate immunity, typically thought to be deficient in memory abilities. Fascinatingly, NK cells have now become the focal point of scientific research due to emerging evidence suggesting the presence of memory-like characteristics within their functional repertoire. Through a comprehensive exploration of NK cell subpopulations and the strategic application of cytokines or other stimuli to induce the development of memory-generating NK cell subpopulations, the potential for enhancing the efficacy of HIV vaccines emerges. This approach holds promise in bolstering the creation of adaptive immunity and advancing the quest for effective HIV immunization strategies. The study offers valuable insights into the potential of NK memory cells as a viable component of future HIV vaccine regimens, suggesting avenues for further research and development in the quest to mitigate the global burden of HIV.