STAT5 interferes with PD-1 transcriptional activation and affects CD8 + T cell sensitivity to PD-1-dependent immunoregulation
Abstract Programmed death-1 (PD-1) is a co-inhibitory receptor that dampens immune responses upon the interaction with PD-L1 and PD-L2. Although the PD-1 expression on T cells is known to be activation-dependent, how cytokines modify its regulation is not fully resolved. Using polyclonal T cell activation to study the cytokine-dependent PD-1 regulation, we found that IL-2 inhibited transcriptional upregulation of PD-1 despite the promotion of T cell activation. IL-2-mediated reduction in PD-1 expression augmented CD8 + T cell activities against PD-L1-expressing target cells. To study the mechanism of PD-1 reduction, we focused on STAT5 activation in the IL-2 signaling pathway. Bioinformatic analysis suggested a novel conserved PD-1 promoter domain where NFAT and STAT5 can potentially compete with each other for binding. NFAT1 interaction with this domain revealed substantial potency in PD-1 transcription compared to STAT5A, and STAT5A overexpression could quench NFAT1-dependent PD-1 upregulation in a sequence-specific manner. Chromatin immunoprecipitation analysis of activated T cells showed that IL-2 treatment significantly diminished the binding of NFAT1 and NFAT2 in the hypothesized competition site, while STAT5 binding to the same region was increased. These results raise the possibility that the competition of transcriptional factors might be involved in the fine-tuning of PD-1 expression by cytokines such as IL-2.