Abstract
SIRS is associated with lymphopenia, and prolonged lymphopenia of septic patients has been associated with increased mortality risk. We hypothesize that elevated adenosine during SIRS down-regulates Gi-coupled A1R, which signals an effect that sensitizes a cAMP-dependent lymphotoxic response. In this study, we evaluate the role of adenosine in SIRS-mediated lymphopenia and impaired IL-15 production. Cecal ligation and puncture was used to induce sepsis-associated SIRS in mice. BMDCs were cultured and used to measure the effect of adenosine on IL-15. We found that A1R mRNA levels were significantly down-regulated and A1R-dependent Gi activity was abolished in T cells of septic mice. In accordance, cAMP was elevated in isolated T cells from cecal ligation and puncture compared with sham-treated mice. Similar to septic mice, leukopenia was evident in sham A1R-KO mice, after treatment with the A1R antagonist (8-cyclopentyl-1,3-dipropylxanthine), or after A1R desensitization. In contrast, A2AR-KO mice were protected from leukopenia. In addition, we observed that septic A1R-KO mice exhibited low IL-15 levels. Cultured BMDC agonists of A2AR and A2BR inhibited IL-15 production and adenosine blocked IL-15-dependent proliferation of cytotoxic T cells that were cocultured with stimulated BMDCs. To conclude, we suggest that SIRS-associated lymphopenia is initiated by A1R desensitization and adenosine-mediated inhibition of IL-15 production is part of the mechanism that accounts for the delay in leukopenia recovery in patients with severe sepsis. Interference with adenosine signaling may thus be potentially beneficial for septic patients with leukopenia.