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1.  In vivo hypoxic preconditioning protects from warm liver ischemic/reperfusion injury through the adenosine A2B receptor 
Transplantation  2012;94(9):894-902.
BACKGROUND
Liver ischemia(I)/reperfusion(R) injury(I) is a known risk factor for the postoperative outcome of patients undergoing liver surgery/transplantation. Attempts to protect from organ damage require multidisciplinary strategies and are of emerging interest in view of patients with higher age and ASA-status. Ischemic preconditioning has been successfully applied to prevent from IRI during liver resections/transplantation. Since even short periods of ischemia during preconditioning inevitably lead to hypoxia and formation of anti-inflammatory/ cytoprotective acting adenosine, we reasoned that short non-ischemic hypoxia also protects against hepatic IRI.
METHODS
Mice underwent hypoxic preconditioning(HPC) by breathing 10%-oxygen for 10 minutes, followed by 10 minutes of 21%-oxygen prior to left-liver-lobe-ischemia(45 min) and reperfusion(4 hrs). The interactions of hypoxia->adenosine->adenosine-receptors were tested by pharmacologic antagonism at adenosine receptor(AR) sites in wild type mice and in mice with genetic deletions at the A1-;A2A-;A2B- and A3-ARs. Hepatocellular damage, inflammation and metabolic effects were quantified by enzyme activities, cytokines, liver-myeloperoxidase(MPO), blood adenosine and tissue-adenosinemonophosphate(AMP), respectively.
RESULTS
Hepatoprotection by HPC was significant in wild type and A1-, A2A-and A3 AR-knock-out mice as quantified by lower ALT serum activities, cytokine levels, histological damage-scores, tissue-myeloperoxidase-concentrations and as well as preserved AMP-concentrations. Protection by HPC was blunted in mice pretreated with the A2B-AR-antagonist MRS1754 or in A2B-AR“knock-outs”.
CONCLUSION
Because liver protective effects of HPC are negated when the A2B receptor is non-functional, the "hypoxia->adenosine->A2B receptor" pathway plays a critical role in the prevention of warm ischemia reperfusion injury in vivo. Hypoxic activation of this pathway warrants use of selective A2B-AR-agonists or even intermittent hypoxia (e.g. in deceased organ donors) to protect from liver ischemia/reperfusion injury.
doi:10.1097/TP.0b013e31826a9a46
PMCID: PMC3491139  PMID: 23073466
hypoxia; murine liver ischemia; preconditioning; hepatoprotection
2.  Critical Role of Hypoxia and A2A Adenosine Receptors in Liver Tissue-Protecting Physiological Anti-Inflammatory Pathway 
Molecular Medicine  2007;14(3-4):116-123.
Whole body exposure of wild type control littermates and A2A adenosine receptor (A2AR) gene deleted mice to low oxygen containing inspired gas mixture allowed the investigation of the mechanism that controls inflammatory liver damage and protects the liver using a mouse model of T cell-mediated viral and autoimmune hepatitis. We tested the hypothesis that the inflammatory tissue damage-associated hypoxia and extracellular adenosine → A2AR signaling plays an important role in the physiological anti-inflammatory mechanism that limits liver damage during fulminant hepatitis. After induction of T cell-mediated hepatitis, mice were kept in modular chambers either under normoxic (21% oxygen) or hypoxic (10% oxygen) conditions for 8 h. It was shown that the whole body exposure to hypoxic atmosphere caused tissue hypoxia in healthy animals as evidenced by a decrease in the arterial blood oxygen tension and increase of the plasma adenosine concentration (P < 0.05). This “hypoxic” treatment resulted in significantly reduced hepatocellular damage and attenuated levels of serum cytokines in mice with acute liver inflammation. The anti-inflammatory effects of hypoxia were not observed in the absence of A2AR in studies of A2AR gene-deficient mice or when A2AR have been pharmacologically antagonized with synthetic antagonist. The presented data demonstrate that total body hypoxia-triggered pathway provides protection in acute hepatitis and that hypoxia (upstream) and A2AR (downstream) function in the same immunosuppressive and liver tissue-protecting pathway.
doi:10.2119/2007-00075.Chouker
PMCID: PMC2156187  PMID: 18163162

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