Abstract
Although the combined antiretroviral therapy (cART) has decreased the deaths associated with the immune deficiency acquired syndrome (AIDS), non-AIDS conditions have emerged as an important cause of morbidity and mortality in HIV-infected patients under suppressive cART. Since these conditions are associated with a persistent inflammatory and immune activation state, major efforts are currently made to improve the immune reconstitution. CD8+ T-cells are critical in the natural and cART-induced control of viral replication; however, CD8+ T-cells are highly affected by the persistent immune activation and exhaustion state driven by the increased antigenic and inflammatory burden during HIV infection, inducing phenotypic and functional alterations, and hampering their antiviral response. Several CD8+ T-cell subsets, such as interleukin-17-producing and follicular CXCR5+ CD8+ T-cells, could play a particular role during HIV infection by promoting the gut barrier integrity, and exerting viral control in lymphoid follicles, respectively. Here, we discuss the role of CD8+ T-cells and some of their subpopulations during HIV infection in the context of cART-induced viral suppression, focusing on current challenges and alternatives for reaching complete reconstitution of CD8+ T-cells antiviral function. We also address the potential usefulness of CD8+ T-cell features to identify patients who will reach immune reconstitution or have a higher risk for developing non-AIDS conditions. Finally, we examine the therapeutic potential of CD8+ T-cells for HIV cure strategies.
Highlights
Diseases (Mexico), Mexico Aikaterini Alexaki, United States Food and Drug Administration, United States Fernando Roger Esquivel-Guadarrama, Autonomous University of the State of Morelos, Mexico
The combined antiretroviral therapy has decreased the deaths associated with the immune deficiency acquired syndrome (AIDS), non-AIDS conditions have emerged as an important cause of morbidity and mortality in human immunodeficiency virus type-1 (HIV)-infected patients under suppressive cART
CD8+ T-cells are critical in the natural and cART-induced control of viral replication; CD8+ T-cells are highly affected by the persistent immune activation and exhaustion state driven by the increased antigenic and inflammatory burden during HIV infection, inducing phenotypic and functional alterations, and hampering their antiviral response
Summary
Gut barrier disruption allows the passage of microbial products from the intestinal lumen to the lamina propria and systemic circulation [162]. In chronic inflammatory settings [165, 166], as well as during HIV infection [167], CD4+, and CD8+ T-cells may upregulate TLR-2, 3, 4, 7, and 9 expression [167, 168], and human T-cells can respond in vitro to several MAPS [168, 169]. In the case of CD4+ T-cells, this TLR-mediated activation renders them more susceptible to HIV replication [170] and apoptosis [169], whereas in the case of CD8+ T cells, TLR engagement lowers the activation threshold [171], which can be deleterious in a chronic setting. T-cell exposure to TLR agonists may directly contribute to increased T-cell activation during chronic HIV infection
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