Adenosine signalling in T-cell activation favours development of IL-17 positive cells with suppressive properties.

Evidence suggests that the anti-inflammatory nucleoside adenosine can shape immune responses by shifting the regulatory (Treg )/helper (Th17) T-cell balance in favour of Treg . Since this observation is based on in vivo and in vitro studies mostly confined to murine models, we comprehensively analysed effects of adenosine on human T-cells. Proliferation, phenotype and cytokine production of stimulated T-cells were assessed by flow cytometry, multiplex assay and ELISA, gene expression profiling was determined by microarray. We found that the pan-adenosine agonist 5'-N-ethylcarboxamidoadenosine (NECA) skews human CD3+ T-cell responses towards non-inflammatory Th17 cells. Addition of NECA during T-cell activation increased the development of IL-17+ cells with a CD4+ RORγt+ phenotype and enhanced CD161 and CD196 surface expression. Remarkably, these Th17 cells displayed non-inflammatory cytokine and gene expression profiles including reduced Th1/Th17 transdifferentiation, a stem cell-like molecular signature and induced surface expression of the adenosine-producing ectoenzymes CD39 and CD73. Thus, T-cells cultured under Th17-inducing conditions together with NECA were capable of suppressing responder T-cells. Finally, genome-wide gene expression profiling revealed metabolic quiescence previously associated with non-pathogenic Th17 cells in response to adenosine signalling. Our data suggest that adenosine induces non-inflammatory Th17 cells in human T-cell differentiation, potentially through regulation of metabolic pathways.