AIM: To examine the effects of adenosine and A1 receptor activation on reperfusion-induced small intestinal injury. METHODS: Rats were randomized into groups with sham operation, ischemia and reperfusion, and system...AIM: To examine the effects of adenosine and A1 receptor activation on reperfusion-induced small intestinal injury. METHODS: Rats were randomized into groups with sham operation, ischemia and reperfusion, and systemic treatments with either adenosine or 2-chloro-N^6-cyclopentyladenosine, A1 receptor agonist or 8-cyclopentyl- 1,3-clipropylxanthine, A1 receptor antagonist, plus adenosine before ischemia. Following reperfusion, contractions of ileum segments in response to KCl, carbachol and substance P were recorded. Tissue myeloperoxidase,malondialdehyde, and reduced glutathione levels were measured. RESULTS: Ischemia significantly decreased both contraction and reduced glutathione level which were ameliorated by adenosine and agonist administration. Treatment also decreased neutrophil infiltration and membrane lipid peroxidation. Beneficial effects of adenosine were abolished by pretreatment with A1 receptor antagonist. CONCLUSION: The data suggest that adenosine and A1 receptor stimulation attenuate ischemic intestinal injury via decreasing oxidative stress, lowering neutrophil infiltration, and increasing reduced glutathione content.展开更多
Protein-protein interactions represent an important mechanism for posttranslational modifications of protein expression and function.In brain cells,surface-expressed and membrane-bound neurotransmitter receptors are c...Protein-protein interactions represent an important mechanism for posttranslational modifications of protein expression and function.In brain cells,surface-expressed and membrane-bound neurotransmitter receptors are common proteins that undergo dynamic protein-protein interactions between their intracellular domains and submembranous regulatory proteins.Recently,the Gφi/o -coupled muscarinic M4 receptor(M4R)has been revealed to be one of these receptors.Through direct interaction with the intracellular loops or C-terminal tails of M4Rs,M4R interacting proteins(M4RIPs)vigorously regulate the efficacy of M4R signaling.A synapse-enriched protein kinase,Ca2+/calmodulin-dependent protein kinase II (CaMKII),exemplifies a prototype model of M4RIPs,and is capable of binding to the second intracellular loop of M4Rs. Through an activity-and phosphorylation-dependent mechanism,CaMKII potentiates the M4R/Gφi/o-mediated inhibition of M4R efficacy in inhibiting adenylyl cyclase and cAMP production.In striatal neurons where M4Rs are most abundantly expressed,M4RIPs dynamically control M4R activity to maintain a proper cholinergic tone in these neurons.This is critical for maintaining the acetylcholine-dopamine balance in the basal ganglia,which determines the behavioral responsiveness to dopamine stimulation by psychostimulants.展开更多
基金Zonguldak Karaelmas University Research Proje-cts Fund, No. 2003-01-09
文摘AIM: To examine the effects of adenosine and A1 receptor activation on reperfusion-induced small intestinal injury. METHODS: Rats were randomized into groups with sham operation, ischemia and reperfusion, and systemic treatments with either adenosine or 2-chloro-N^6-cyclopentyladenosine, A1 receptor agonist or 8-cyclopentyl- 1,3-clipropylxanthine, A1 receptor antagonist, plus adenosine before ischemia. Following reperfusion, contractions of ileum segments in response to KCl, carbachol and substance P were recorded. Tissue myeloperoxidase,malondialdehyde, and reduced glutathione levels were measured. RESULTS: Ischemia significantly decreased both contraction and reduced glutathione level which were ameliorated by adenosine and agonist administration. Treatment also decreased neutrophil infiltration and membrane lipid peroxidation. Beneficial effects of adenosine were abolished by pretreatment with A1 receptor antagonist. CONCLUSION: The data suggest that adenosine and A1 receptor stimulation attenuate ischemic intestinal injury via decreasing oxidative stress, lowering neutrophil infiltration, and increasing reduced glutathione content.
基金supported by thegrants from the Saint Luke’s Hospital Foundation(Kansas City,MO,USA)the National Institute of Health(Bethesda,MD,USA)(No.R01-DA010355-16,R01-MH061469-10)
文摘Protein-protein interactions represent an important mechanism for posttranslational modifications of protein expression and function.In brain cells,surface-expressed and membrane-bound neurotransmitter receptors are common proteins that undergo dynamic protein-protein interactions between their intracellular domains and submembranous regulatory proteins.Recently,the Gφi/o -coupled muscarinic M4 receptor(M4R)has been revealed to be one of these receptors.Through direct interaction with the intracellular loops or C-terminal tails of M4Rs,M4R interacting proteins(M4RIPs)vigorously regulate the efficacy of M4R signaling.A synapse-enriched protein kinase,Ca2+/calmodulin-dependent protein kinase II (CaMKII),exemplifies a prototype model of M4RIPs,and is capable of binding to the second intracellular loop of M4Rs. Through an activity-and phosphorylation-dependent mechanism,CaMKII potentiates the M4R/Gφi/o-mediated inhibition of M4R efficacy in inhibiting adenylyl cyclase and cAMP production.In striatal neurons where M4Rs are most abundantly expressed,M4RIPs dynamically control M4R activity to maintain a proper cholinergic tone in these neurons.This is critical for maintaining the acetylcholine-dopamine balance in the basal ganglia,which determines the behavioral responsiveness to dopamine stimulation by psychostimulants.