T cells play a central role in host defense. ATP release and autocrine feedback via purinergic receptors has been shown to regulate T cell function. However, the sources of the ATP that drives this process are not known. We found that stimulation of T cells triggers a spike in cellular ATP production that doubles intracellular ATP levels in <30 s and causes prolonged ATP release into the extracellular space. Cell stimulation triggered rapid mitochondrial Ca(2+) uptake, increased oxidative phosphorylation, a drop in mitochondrial membrane potential (Δψm), and the accumulation of active mitochondria at the immune synapse of stimulated T cells. Inhibition of mitochondria with CCCP, KCN, or rotenone blocked intracellular ATP production, ATP release, intracellular Ca(2+) signaling, induction of the early activation marker CD69, and IL-2 transcription in response to cell stimulation. These findings demonstrate that rapid activation of mitochondrial ATP production fuels the purinergic signaling mechanisms that regulate T cells and define their role in host defense.
Keywords: ATP; Calcium; Cellular Immune Response; Immunosuppression; Infectious Disease; Inflammation; Purinergic Receptor; Purinergic Signaling; T Cell.
© 2014 by The American Society for Biochemistry and Molecular Biology, Inc.