Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ins(1,4,5)P3 3-kinase and 5-phosphatase are important enzymes responsible for the metabolism of Ins(1,4,5)P3, a second messenger for mobilization of intracellular Ca2+ stores. Focal cerebral ischemia induced in Long Evans rats through occlusion of the right middle cerebral artery (MCA) and both common carotid arteries resulted in a time-dependent decrease in the 3-kinase activity but not the 5-phosphatase activity. Approximately 50% of the 3-kinase activity in the cerebral cortex of the right MCA territory disappeared after 60 min of ischemia, and the enzyme activity was not restored during reperfusion. Reperfusion for 24 hr after a 60 min ischemic insult almost abolished the 3-kinase activity but the 5-phosphatase activity remained unaltered. These results suggest that the Ins(1,4,5)P3 3-kinase is one of the target enzymes of cerebral ischemia. The changes in Ins(1,4,5)P3 metabolism may be associated with the changes in intracellular Ca2+ homeostasis that underlies the pathophysiology of neuronal cell death.
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PMID:Effects of focal cerebral ischemia on inositol 1,4,5-trisphosphate 3-kinase and 5-phosphatase activities in rat cortex. 131 36

In order to assess the potential nephrotoxicity of antibiotics, effects of these agents on rat kidney lysosomal membrane were investigated in various conditions. Antibiotics were given to Wistar rats for 5 successive days. After nephrectomy rat lysosomes were separated and their membrane stability was examined by measuring the activities of acid-phosphatase. In addition, after separation of lysosomes from normal untreated Wistar rats, antibiotics were added in the incubation system to assess the in vitro effect of antibiotics. Effects of renal ischemia and the lysosomal membrane stabilizer (cortisol) were also examined. Aminoglycosides antibiotics (streptomycin, kanamycin, gentamycin), doxytetracycline, chloramphenicol, and cephems (cephalothin, cephaloridine, ceftezol, latamoxef) were used for this purpose. It was clearly pointed out that aminoglycosides interfered with the lysosomal stability in vivo and in vitro. After a 60 minutes ischemia of the rat kidneys by clamping the renal arteries, effects of antibiotics on administration of 5 successive days on rat lysosomal stability were investigated. It was demonstrated that aminoglycosides also made the lysosomal membrane more unstable. Effects of the lysosomal stabilizer, cortisol, on rat kidney lysosomes were examined. Use of cortisol simultaneously with an antibiotic was more effective than that before and after it.
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PMID:[Basic study of nephrotoxicity of antibiotics. II. Studies of the effect of antibiotics on lysosomal stability in rat kidneys]. 232 26

The viability of the graft after liver transplantation is considered to be expressed as the sum of the hepatocellular activity by re-flowing of the hepatic blood flow after transplantation and the hepatocellular injury derived from the cold ischemia of the liver which is indispensable for transplantation. In order to elucidate the hepatocellular injury in ischemic liver graft cold ischemic liver model without hepatectomy was prepared and liver functions, serum insulin, glucagon and cyclic AMP after glucagon loading were measured. The following results were obtained. 1) Influence of anoxia due to ischemia of the liver expressed by s-GOT, disappeared 2 days after operation but it lasted for long time by s-GPT. Re-elevation of s-GOT, s-GPT observed after 2 days or more was considered to be derived from the hepatocellular necrosis due to rejection. Incidentally, Al-phosphatase was useful for judging the rejection, but s-total bilirubin, s-total cholesterol and albumin were considered to be not useful as parameters for evaluating the viability of the graft. 2) The rejection and the hepatocellular necrosis had not influence on serum insulin, but serum glucagon corresponded to the hepatocellular necrosis and was useful index for the judgment of the hepatocellular damage in the graft. 3) The level of c-AMP after glucagon loading and the c-AMP response corresponded very well to the hepatocellular activity of the graft, and they were considered to be useful indices for evaluating the viability of the graft.
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PMID:[Experimental study of orthotopic liver transplantation in dog--with reference to change of hepatic function, serum insulin, glucagon, c-AMP after liver transplantation and the viability of the graft]. 284 4

The uptake of 32P-phosphocreatine by control and ischemic isolated perfused rat hearts has been studied. The rate of phosphocreatine (PCr) uptake by the hearts after 35 minutes of ischemia was two times that in control hearts at 0.5-10 mM PCr in the perfusate. At 10 mM PCr in the perfusate, this rate was 182 nmoles/min/g dry weight. The 5'-nucleotidase and phosphatase activities were found in the crude plasma membrane fraction of rat heart. The pH-dependence of these enzymes was examined. The 5'-nucleotidase activity decreased with a drop in pH from 8.0 to 6.0. The phosphatase activity in the crude plasma membrane fraction of rat heart was increased 2-fold with a decrease in pH from 8.0 to 6.0. The 5'-nucleotidase activity was inhibited by 10 mM PCr in the presence of 5 mM Mg2+. This inhibition was pH-dependent with a maximum (58%) at pH 6.0. The inhibition of phosphatase activity by PCr was independent of pH and reached 20% in the presence of 10 mM PCr. Some feasible mechanisms of the protective effect of PCr on ischemic myocardium are discussed.
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PMID:[Possible mechanism of the protective effect of phosphocreatine on the ischemic myocardium]. 301 Nov 27

Brain ischemia in gerbils was induced by ligation of both common carotid arteries for 1 min or 10 min. Sham-operated animals served as controls. Intracerebral injection of [3H]inositol into gerbil brain 16 hr before ischemic insult resulted in equilibration of the label between inositol lipids and water-soluble inositol phosphate. A short ischemic period (1 min) resulted in a statistically significant increase in the radioactivity of inositol triphosphate (IP3) and inositol monophosphate (IP), by about 48% and 79%, respectively, with little change in that of the intermediate inositol biphosphate (IP2), which increased by about 16%. When the ischemic period was prolonged (10 min), an increase in the radioactivity of inositol monophosphate exclusively, by about 84%, was observed. The level of radioactivity in inositol phosphates IP2 and IP3 decreased by about 50%, probably as a consequence of phosphatase activation by the ischemic insult. The agonist of the cholinergic receptor, carbachol, injected intracerebrally (40 micrograms per animal) increased accumulation of radioactivity in all inositol phosphates. The level of radioactivity in IP3, IP2, and IP was elevated by about 40, 23, and 147%, respectively. The muscarinic cholinergic antagonist, atropine, injected intraperitoneally in doses of 100 mg/kg body wt. depressed phosphoinositide metabolism in control animals. The level of radioactivity in water-soluble inositol metabolites in the brain of animals pretreated with atropine was evidently about 32% lower than in untreated animals. Pretreatment with atropine decreased the radioactivity of all inositol phosphates in the brain of animals subjected to 1-min ischemia and the radioactivity of IP in the case of 10-min brain ischemia.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of atropine and gammahydroxybutyrate on ischemically induced changes in the level of radioactivity in [3H]inositol phosphates in gerbil brain in vivo. 340 69

Isolated spontaneously beating rat hearts were perfused in the Langendorff mode and divided into four groups, i.e., control (aerobic), hypoxic (95% N2-5% CO2), ischemic, and ischemic reperfused. After a total of 90 min of perfusion, the sarcolemma was isolated and enzymatically characterized. Ouabain-sensitive Na+-K+-ATPase was inhibited in all three experimental groups, whereas K+-stimulated phosphatase activity was decreased only in the ischemic and reperfused groups compared with control. 5'-Nucleotidase activity was inhibited (P less than 0.05) only in the ischemic group. Mg2+-ATPase activity was not different from control. Passive Ca2+ uptake and Ca2+ efflux were not significantly altered by any of the interventions. Na+-Ca2+ exchange rate, but not capacity, was decreased (by 32-42%) in the ischemic group but this was partially reversed on reperfusion. These results suggest that changes secondary to lack of flow rather than O2 play a major role in the etiology of ischemic damage to the membrane and that a 15-min period of reperfusion after 60 min of ischemia does not exacerbate this damage.
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PMID:Sarcolemmal enzymes and Na+ -Ca2+ exchange in hypoxic, ischemic, and reperfused rat hearts. 614 98

Loss of intracellular calcium homeostasis has been regarded an important factor underlying neuron cell death after cerebral ischemic insult. In the brain, a major mechanism for regulation of intracellular calcium is through the signal transduction pathway involving hydrolysis of poly-phosphoinositides and release of the second messenger, inositol 1,4,5-trisphosphate (IP3). IP3 mobilizes calcium by interacting with an intracellular receptor. Upon its release after agonist stimulation, this second messenger is catabolized by a 3-kinase and a 5-phosphatase. In this study, in situ hybridization was carried out to examine the mRNA expression of IP3, receptor (IP3R) and IP3 3-kinase (IP3K) in rat brain cortex after transient focal cerebral ischemia induced by temporary occlusion of the middle cerebral artery (MCA) and the common carotid arteries (CCAs). Results indicate a large decrease (52%) in IP3R mRNA levels in the ischemic cortex as compared to that in the contralateral side at 4 h after a 45 min ischemic insult. By 16 h, practically no IP3R mRNA could be detected in the ischemic cortex. On the other hand, IP3K mRNA levels remained unaltered until 16 h after reperfusion, during which time, expression in the infarct core decreased but that surrounding the core area increased instead. Hybridization of adjacent brain sections with probes for neuron specific enolase (NSE) and beta-actin indicated also a time-dependent decrease in mRNA levels after ischemia, but these changes were less dramatic as compared to IP3R. At 16 and 24 h after reperfusion, there was an increase in beta-actin mRNA in cortical areas outside the MCA cortex, suggesting of reactive gliosis.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:In situ hybridization of mRNA expression for IP3 receptor and IP3-3-kinase in rat brain after transient focal cerebral ischemia. 750 Aug 36

PAC-1 mRNA has previously been found only in activated T-cells in vitro and in vivo. The gene encodes a dual specificity protein phosphatase that regulates MAP kinase activity. Here, I describe that PAC-1 mRNA is induced also in neurons in the rat brain following 30 min of forebrain ischemia. At 6, 12 and 24 h after ischemia, PAC-1 mRNA was found most prominently in hippocampal cells which are resistant to 30 min of forebrain ischemia, but not in the selectively vulnerable CA1 sector. At later time points and in control animals no PAC-1 mRNA could be detected in any brain region. The protein-tyrosine/threonine phosphatase PAC-1, therefore, may be involved in adaptational responses of hippocampal cells resistant to ischemic injury.
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PMID:The dual specificity phosphatase PAC-1 is transcriptionally induced in the rat brain following transient forebrain ischemia. 772 34

In fibroblasts, serum stimulation has been shown to activate the immediate-early gene 3CH134 encoding a dual specificity protein phosphatase that regulates mitogen-activated protein kinase. We report here that 3CH134 messenger RNA levels increase during recirculation following 30 min forebrain ischemia in the rat brain. In normal rat brains, 3CH134 messenger RNA was found mainly in neurons of the cortex and thalamus. At recirculation periods up to 1 h after 30 min ischemia, 3CH134 messenger RNA increased in neurons and glial cells of all previously ischemic brain regions. After 3 and 6 h recirculation, a prominent increase of 3CH134 messenger RNA was observed in the pyramidal cell layer of all sectors of the hippocampus and the granule cells of the dentate gyrus, whereas in the other brain regions messenger RNA levels returned to control. Up to 6 h of recirculation the spatial induction pattern of 3CH134 was similar to the pattern observed for the immediate-early genes c-fos and c-jun. Within the hippocampus a similar pattern was also observed for the heat shock protein hsp70 messenger RNA. At 12 and 24 h after ischemia, increased levels of 3CH134 messenger RNA persisted in hippocampal neurons; at the same time a delayed increase of 3CH134 messenger RNA was observed in large neurons of the thalamus and in glial cells in damaged regions of the striatum. At later survival periods, 3CH134 messenger RNA returned to control levels. Our study shows that the mitogen-activated protein kinase phosphatase 3CH134 is induced in the brain after a period of global ischemia.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Transient forebrain ischemia induces an immediate-early gene encoding the mitogen-activated protein kinase phosphatase 3CH134 in the adult rat brain. 775 88

Casein kinase II (CKII) is a protein kinase acting in the intracellular cascade of reactions activated by growth factor receptors, and that has a profound influence on cell proliferation and survival. In this investigation, we studied the changes in the activity and levels of CKII in the rat brain exposed to 10, 15 and 20 min of transient forebrain ischemia followed by variable periods of reperfusion. The cytosolic CKII activity decreased during reperfusion by approximately 30 and approximately 50% in the selectively vulnerable areas, striatum and the CA1 region of the hippocampus, respectively. In the resistant CA3 region of hippocampus and neocortex, the activity increased by approximately 20 and approximately 60%, respectively. The postischemic changes in CKII activity were dependent on the duration of the ischemic insult. The levels of CKII did not change after ischemia, suggesting that the enzyme is modulated by covalent modification or is interacting with an endogenous inhibitor/activator. Treatment of the cytosolic fraction from cortex of rats exposed to ischemia and 1 h of reperfusion with agarose-bound phosphatase decreased the activity of CKII to control levels, suggesting that CKII activation after ischemia involves a phosphorylation of the enzyme. The correlation between postischemic CKII activity and neuronal survival implies that preservation or activation of CKII activity may be important for neuronal survival after cerebral ischemia.
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PMID:Casein kinase II activity in the postischemic rat brain increases in brain regions resistant to ischemia and decreases in vulnerable areas. 847 92


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