Adenosine receptor signaling regulates effector T cell activation through the limitation of aerobic glucose metabolism.

Abstract

Abstract Background In a mouse model of colitis, we previously reported the protective role of the adenosine axis on effector T (Teff) cell responses and disease progression. Inflammatory reactions are paired with cell metabolic reprogramming from oxidative phosphorylation (OXPHOS) to aerobic glycolysis which is also a hallmark of T cell activation. Thus, we sought to evaluate the role of the adenosine 2A receptor (A2AR) signaling in the regulation of T cell metabolism. Methods Teff cells were reactivated in the presence or absence of A2AR agonists. Gene expression of mTOR, HIF-1α and cMyc (transcriptional factors of glycolysis-related genes) were quantified by qPCR. T cell metabolic phenotype was evaluated by transcriptomic profiling (Nanostring nCounter® Metabolic Pathway Panel), as well as real-time extracellular flux analysis, glucose uptake, and ATP production assays. Results mTOR, HIF-1α and cMyc gene expression increased as soon as 2hr post stimulation. At this time point, transcriptomic analysis revealed an A2AR agonist-induced downregulation of pathways related to T cell activation (i.e. mTOR, MAPK, PI3K, NFκB and cMyc pathways) and energy metabolism (i.e glycolysis, autophagy, fatty acid synthesis) whereas oxidative metabolism pathways (OXPHOS, fatty acid oxidation, glutamine metabolism) were upregulated (Pathway Score q-value <0.05). Functional assays showed a decreased de novo glucose uptake and glycolysis rate after A2AR agonist treatment while OXPHOS capacity and ATP production were not modulated. Conclusion A2AR signaling provokes a rewiring of the activated T cell metabolism towards an oxidative state making adenosine a potential T cell metabolic regulator that can be exploited in the treatment of IBD. Supported by NIH R01AI079145