RESUMO
Numerous reports have focused on consensus peptides to determine CD8+ T-cell responses; however, few studies evaluated the functional profile using peptides derived from circulating strains of a specific region. We determined the effector profile and maturation phenotype of CD8+ T-cells targeting the consensus APPEESFRS (AS9) epitope and its variant APPEESFRF (AF9), previously identified. The free energy of binding, maturation phenotype, and polyfunctional profile of both peptides were similar. The magnitude of CD8+ T-cell responses to AF9 was greater than the one elicited by AS9, although the difference was not significant. The polyfunctional profile of AF9 was characterized by CD107a/interleukin-2 (IL-2)/macrophage inflammatory protein beta (MIP1ß) and by interferon gamma (IFNγ)/MIP1ß/tumor necrosis factor alpha (TNFα) in response to AS9. TNFα production was significantly higher in response to AF9 than to AS9, and there was a negative correlation between the absolute number of CD8+ T-cell-producing TNFα and the plasma human immunodeficiency virus (HIV) load, suggesting a role of this cytokine in the control of HIV replication.
RESUMO
La vitamina D (VitD), además de su papel en el metabolismo mineral, tiene funciones inmunomoduladoras y podría participar activamente en la fisiopatogénesis de la infección por el VIH-1; sin embargo, la evidencia científica en este campo es limitada y controvertida. La VitD tiene propiedades antiinflamatorias que podrían disminuir la hiperactivación inmunológica, reduciendo el daño asociado a este fenómeno; además, promueve la expresión de péptidos con actividad anti-VIH-1, sustentando su papel protector. En contraste, la VitD activa el promotor del VIH-1 y podría potenciar la replicación del virus; adicionalmente, algunas variantes alélicas en el gen del receptor de la VitD, que aumentan su función, se han asociado con susceptibilidad al VIH-1. Esta revisión presenta evidencia científica sobre el efecto de la vía de la VitD en la patogénesis de la infección por el VIH-1, dada las implicaciones de este tópico en la identificación de nuevos blancos terapéuticos en esta infección.
Beyond its role in mineral metabolism, vitamin D (VitD) has immunomodulatory functions and can actively participate in the physiopathogenesis of HIV-1 infection; however, scientific evidence in this field is limited and controversial. VitD has anti-inflammatory properties that can reduce immune hyperactivation, decreasing the damage associated with this phenomenon. It also promotes the expression of antimicrobial peptides with anti-HIV-1 activity, supporting its protective role. In contrast, VitD activates the HIV-1 promoter and can increase viral replication. Furthermore, a number of allelic variants in the vitamin D receptor gene, which increase its function, have been associated with susceptibility to HIV-1 infection. Given the implications of this topic for the identification of new therapeutic targets in HIV infection, this review presents scientific evidence on the effect of the VitD pathway in HIV-1 pathogenesis.