CD3 and CD8 coreceptor down-modulation are inversely associated with CD8 T cell functional avidity in humans

Abstract

Abstract This study investigated the function of memory CD8 T cells in HIV-infected people durably suppressed on antiretroviral therapy (HIV+ cART). We assessed bulk and virus-specific memory CD8 T cells in HIV+ cART and HIV-seronegative individuals (HIV−) by flow cytometry. We observed a population of CD3+ CD8dim CD14− CD16− (CD8dim) T cells that was expanded as a percentage of total CD8 T cells in both HIV− and CMV-seropositive individuals. Bulk memory CD8dim T cells expressed significantly higher CD69 and less MHC Class I and CD127 ex vivo than CD8bright T cells, suggesting recent activation. CD8dim T cells expressed less GLUT1 and PGC-1α and took up less glucose (2-NBDG) and lipid (Bodipy) than CD8bright T cells, indicating relatively lower metabolic activity. Multimer reactivity was used to examine CMV-, EBV- and HIV-specific CD8 T cells ex vivo. Virus-specific populations were consistently CD8high. However, after peptide stimulation, antigen-specific CD8 T cells down-regulated CD3 and CD8. CMV-specific CD8 T cells down-regulated CD3 and CD8 more than HIV-specific cells. CD3 and CD8 downregulation were strongly correlated with the functional avidity of the response. A strong correlation between GLUT1 down-regulation and CD8 down-regulation was also observed, suggesting an association between CD8 expression and metabolic activity. These results suggest that the expanded CD8dim population in HIV+ cART individuals, who are >90% CMV-seropositive, may be driven by ongoing activation of high-avidity CMV-specific CD8 T cells. They also suggest that different virus-specific CD8 T cell populations differentially downregulate components of the TCR complex and metabolism after antigen stimulation, possibly to avoid excessive activation.