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)

After the middle cerebral artery of rats was occluded, changes in the content of 14 free amino acids and the activity of antioxidant enzymes in the ischemic striatum were assessed with respect to the duration of ischemia. Glu and Asp levels were significantly reduced by 60 min of ischemia, GABA was increased by 30 and 60 min and Ala was increased by 5, 15, and 30 min. During ischemia, the levels of striatal Gln, Asn, Ser, Tau, Gly and Pro were found to be normal. In comparison with the sham-operated rats, the changes in the content of Thr, His, Arg and Tyr were inconclusive, since the effect of operative stress could not be ruled out on such occasion. Concomitantly, the Zn-Cu superoxide dismutase and glutathione peroxidase activity were significantly reduced by 30 min of ischemia. It revealed that the reduced capacity to scavenge the oxygen free radicals occurred during the early stage of cerebral ischemia. The above changes of Glu, Gln, GABA and Pro level might be considered as the final outcome of the decrease of glutamate synthesis, the acceleration of its conversion to GABA, and the extracellular leakage of glutamate. According to our data, the oxygen free radicals might be involved in the evolution of primary neuronal damage at the ischemic striatum.
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PMID:[Mechanism of neuronal damage caused by cerebral ischemia]. 133 25

Ca2+/calmodulin-dependent protein kinase II (CaMKII) exhibits a broad substrate specificity and regulates diverse responses to physiological changes of intracellular Ca2+ concentrations. Five isozymic subunits of the highly abundant brain kinase are encoded by four distinct genes. Expression of each gene is tightly regulated in a cell-specific and developmental manner. CaMKII immunoreactivity is broadly distributed within neurons but is discretely associated with a number of subcellular structures. The unique regulatory properties of CaMKII have attracted a lot of attention. Ca2+/calmodulin-dependent autophosphorylation of a specific threonine residue (alpha-Thr286) within the autoinhibitory domain generates partially Ca(2+)-independent CaMKII activity. Phosphorylation of this threonine in CaMKII is modulated by changes in intracellular Ca2+ concentrations in a variety of cells, and may prolong physiological responses to transient increases in Ca2+. Additional residues within the calmodulin-binding domain are autophosphorylated in the presence of Ca2+ chelators and block activation by Ca2+/calmodulin. This Ca(2+)-independent autophosphorylation is very rapid following prior Ca2+/calmodulin-dependent autophosphorylation at alpha-Thr286 and generates constitutively active, Ca2+/calmodulin-insensitive CaMKII activity. Ca(2+)-independent autophosphorylation of CaMKII also occurs at a slower rate when alpha-Thr286 is not autophosphorylated and results in inactivation of CaMKII. Thus, Ca(2+)-independent autophosphorylation of CaMKII generates a form of the kinase that is refractory to activation by Ca2+/calmodulin. CaMKII phosphorylates a wide range of neuronal proteins in vitro, presumably reflecting its involvement in the regulation of diverse functions such as postsynaptic responses (e.g. long-term potentiation), neurotransmitter synthesis and exocytosis, cytoskeletal interactions and gene transcription. Recent evidence indicates that the levels of CaMKII are altered in pathological states such as Alzheimer's disease and also following ischemia.
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PMID:Regulation and role of brain calcium/calmodulin-dependent protein kinase II. 133 43

The concentration of 18 alpha-amino acids (AAs) in plasma and renal cortical cell water were measured 3 or 24 hr after 1 hr of unilateral renal artery clamping or 24 or 48 hr after 15 mg/kg body weight HgCl2 injection sc as a test of epithelial integrity. Cellular glycine (Gly), hydroxyproline (Hpr), ornithine (Orn), phenylalanine (Phe), serine (Ser), and tryptophan (Trp) concentrations were depressed 24 hr after HgCl2 (p less than 0.05), but the remaining 12 AAs were not distinguishable from control despite the presence of severe renal failure. ARginine (Arg), glutamic acid (Glu), and valine (Val) also were decreased (P less than 0.05) 24 hr later, but concentrations of half of all measured AAs were still normal. Cellular alanine (Ala), Arg, Glu, Gly, Phe, and Ser concentrations were decreased 3 hr after ischemia, p less than 0.05, but 12 AAs were unchanged and only Arg, Phe, Ser, and threonine (Thr) were reduced 24 hr after ischemia was reversed. Concentrations of even the most affected AAs remained notably higher than in plasma in both forms of acute renal failure (ARF). Total loss of AAs from a small proportion of tubular cells would be hidden by essentially normal concentrations in the rest, and such losses may well have occurred. Unless cellular AAs in ARF are almost completely bound, however, the well-maintained cell:plasma AA concentration ratios indicate that cellular energetics were adequate for AA uptake and that epithelial permeability to AAs in the vast majority of cells was not greatly disturbed. Such findings suggest that most of the epithelium, although seriously damaged, had remained viable.
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PMID:Renal epithelial amino acid concentrations in mercury-induced and postischemic acute renal failure. 221 14

Rats with a portacaval anastomosis and ligation of the hepatic artery 2 days later were infused for 6 hr with a 10% glucose solution (group I) or the same solution combined with 0.24 M/liter branched-chain amino acids (BCAA, group II). Control animals with portacaval anastomosis and sham-operation (group III) or two sham-operations (group IV) were infused with a 10% glucose solution. The rats were killed by decapitation and indoleamines and amino acids were determined in the brain. Rats with liver ischemia were stuporous at the end of the experiment irrespective of treatment. The concentrations in the cortex of lysine, methionine, phenylalanine, threonine, alanine, glutamine, glycine, histidine, and tyrosine were significantly increased in group I compared to group IV. Infusion of BCAA to rats with liver-ischemia (group II) resulted in significantly lower concentrations of lysine, methionine, phenylalanine, threonine, histidine and tyrosine and increased concentrations of isoleucine, leucine, valine, and arginine compared to group I. The content of serotonin in the cortex and brain stem was significantly increased in group I compared with the BCAA-treated animals (group II) and the control groups III and IV. The concentrations of 5-hydroxyindoleacetic acid (5-HIAA) in the cortex and brain stem were higher in group I than in group IV. Infusion of BCAA to rats with liver ischemia normalized the concentrations of 5-HIAA in the cortex and brain stem.
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PMID:Amino acids and indoleamines in the brain after infusion of branched-chain amino acids to rats with liver ischemia. 242 87

Changes in biochemical and electroencephalographic parameters were followed over time during the development of acute hepatic encephalopathy (HE) in two different experimental models. In the rat, (sub)acute liver failure was obtained either by ligation of the hepatic artery in previously portacaval-shunted animals or by intraperitoneal injection of a high dose of galactosamine (GALN). The EEG changes were characterized in both models by a significant increase in low-frequency activity of the EEG power density spectra: the so-called 'left shift'. This 'left shift' was significant in liver ischemia after 4-5 h and in GALN hepatitis after about 30 h. The changes in plasma biochemical indices also showed a great similarity in both models. The concentration of all measured plasma amino acids (except histidine and arginine in GALN hepatitis and arginine in liver ischemia), NH3 and ALAT were significantly increased during the development of (sub)acute HE. Correlation of the combined data of electroencephalographic and biochemical indices showed a significant (P less than 0.01) correlation between the 'left shift' and NH3, taurine, threonine, proline, alanine, methionine, cystathionine, phenylalanine, tryptophan, ornithine and histidine. It is concluded that EEG spectral analysis is a useful parameter for following the development of (sub)acute hepatic encephalopathy in relation to biochemical parameters.
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PMID:Correlation between electroencephalographic and biochemical indices in acute hepatic encephalopathy in rats. 359 63

Adult male rats were force-fed either a single dose of 200 mg of DL-methionine or an amino acid mixture with the pattern of casein. The animals were anesthetized with pentobarbital at 0, 1.5, 3 and 4 hours after intubation, and samples of liver were removed by a freeze-clamping technique at 0, 15 and 30 seconds of ischemia. Hepatic ATP, ADP, AMP, Pi, glucose-6-phosphate, glucose and certain nitrogenous compounds as well as plasma glucose were determined. After methionine was given by intubation, hepatic methionine and glutathione increased severalfold within 1.5 hours; cystathionine showed a transient rise at this time but returned to normal at 3 and 4 hours, when taurine was progressively increasing. Several nonessential amino acids decreased, suggesting that they may be utilized for energy. Methionine force-feeding did not modify the concentration of hepatic adenine nucleotides and probably did not change their turnover, as estimated from changes during ischemia. The level and production of Pi during ischemia was increased however. After force-feeding the amino acid mixture, hepatic methionine, cystathionine and taurine were unaffected, and glutathione increased only at hours 3 and 4; glycine and threonine were elevated by 1.5 hours. Hepatic adenine nucleotides, inorganic phosphate and glucose were not significantly affected by the feeding of amino acids by intubation.
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PMID:Effects of excess methionine ingestion on hepatic phosphate, adenine nucleotides and free amino acids in the rat. 707 15

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

The concentrations of amino acids (AA), stroke index and infarct area were determined in 26 gerbils which were divided into 3 groups: RSM-treated (n = 8), Saline-treated (n = 10) and sham-operated (n = 8). The levels of AA were measured with microdialysis technique in cerebral cortex. The concentrations of neurotransmitter AA, as Glu and GABA and Asp, were significantly increased during the first 60 min after CCA ligation, while the concentrations of non-neurotransmitter AA, as Thr and Ser, had no significant changes. In RSM-treated gerbils, the level of Glu was significantly lower than that of the saline-treated, but the GABA in RSM-treated was significantly higher than that of the saline-treated. The ratio of Glu/GABA was significantly decreased after ischemia. The RSM could improve the reduction of ratio of Glu/GABA during 0-30 min and 91-120 min after cerebral ischemia. There were statistically significant decrease in terms of stroke index in RSM-treated group when compared with saline-treated group at 24 h and 16 h after CCA ligation respectively. The RSM has a tendency to decrease the size of infarct area, but no statistical difference. The results suggest that the neurotransmitter AA involve in the pathophysiological procedures of cerebral ischemia and the RSM can attenuate dysfunctions of EAA and IAA. Furthermore, the results also imply that there may be an alternate way to treat cerebral ischemia by inhibiting the presynaptic releasing of Glu and stimulating the releasing of GABA.
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PMID:Effect of radix salviae miltiorrhizae on EAA and IAA during cerebral ischemia in gerbils: a microdialysis study. 819 18

The protein serine/threonine kinases which are highly expressed in the central nervous system (CNS) are severely affected by brain ischemia. Irrespective of substantial differences among the particular members of this group of kinases, their responses to ischemic stress show a lot of similarities. Initially they are switched on by facilitated interaction with their specific activators/second messengers like cyclic AMP, 1,2-sn-diacylglicerol and particularly Ca2+, then they are translocated to highly specific regions of plasma membranes. After phosphorylation of target proteins, the kinases are deactivated by means of different routes. Activity of PKA is regulated by its direct access to cAMP. In the case of CaMKII, it is probably achieved by its extensive, inhibitory autophosphorylations, while PKC seems to be proteolytically degraded. These biphasic changes in serine/threonine kinases activity may play a critical role in the evolution of postischemic brain injury and provide a mechanism for a variety of short- and long-term signalling events.
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PMID:Protein serine/threonine kinases (PKA, PKC and CaMKII) involved in ischemic brain pathology. 876 9

We evaluated in rats, the effect of moderate hypothermia (30-31 degrees C) on extracellular levels of amino acids, with special emphasis on the excitatory amino acids (EAAs) glutamate and aspartate, lactate and pyruvate, after severe spinal cord compression. A laminectomy of Th7 and Th8 was made. A probe was inserted in a dorsal horn and microdialysis was performed for 1.5 h before and 4 h after applying severe compression for 5 min. Dialysate samples were collected at intervals of 10 min and analyzed by high-performance liquid chromatography. In normothermic (37.5 degrees C) animals there was a several-fold rise of glutamate that peaked in the first 10 min fraction after trauma. Hypothermic animals showed a similar increase after trauma, which was statistically significant until 20 min after injury. The level of glutamate was significantly higher in hypothermic animals from 20 to 70 min after injury, compared with normothermic animals. Aspartate also showed a marked increase following injury. The peak concentration was similar for both groups, whereas recovery was delayed in hypothermic animals. There was no significant difference between the normothermic and hypothermic animals for arginine, taurine, alanine, glutamine, histadine, glycine, threonine, tyrosine, and asparagine. No significant effect of hypothermia on lactate or lactate/pyruvate was noted. However, the mean level of lactate tended to be lower and recovery was quicker in hypothermic animals. The results of the present study suggest that moderate hypothermia does not attenuate extracellular accumulation of EAAs or markedly improve energy metabolism in our model. Instead, our findings raise the possibility that moderate hypothermia prolongs the duration of glutamate receptor overactivation. Since hypothermia effectively attenuates glutamate release in CNS and spinal cord ischemia models our results suggest different mechanisms of extracellular accumulation of EAAs in ischemia and trauma.
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PMID:Effects of moderate hypothermia on extracellular lactic acid and amino acids after severe compression injury of rat spinal cord. 904 12


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