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)

This work was designed to investigate the effects of brain ischemia on mnesic retention in the model of unilateral microsphere embolization in rats. Using various radioactive tracers as well as a learning/memory test, we could correlate following parameters: regional blood flow, protein synthesis and memory retention. All were severely impaired by the hemispheric multi-infarction. A curative treatment with naftidrofuryl (15 mg/kg i.p.) for 3 consecutive days strongly improved the mnesic capacities of the animals, and this effect was corroborated by a marked protective drug action on protein synthesis in the hippocampus. Indeed, studies on valine incorporation into proteins revealed that, despite having no quantitative effect on regional blood flow, naftidrofuryl allowed an almost normal functioning of protein synthesis. As naftidrofuryl had also no direct effect on protein synthesis in the intact contralateral hemisphere, this effect was consequently attributed to the metabolic and/or antiserotoninergic effects of the drug.
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PMID:Postischemic breakdown in hippocampal protein synthesis and mnesic deficits in rats: pharmacological improvement by curative naftidrofuryl treatment. 129 67

Excitatory amino acids (EAAs) have been implicated to play a part in the development of hypoxic-ischemic brain injury in the neonate. The aim of the present study was to follow changes of intra- and extracellular (microdialysis) amino acids in the cerebral cortex in a model where cortical hypoxic-ischemic damage is produced consistently. Hypoxic-ischemia (unilateral ligation of the carotid artery + 2 h of exposure to 7.8% oxygen) caused a depletion of tissue ATP, phosphocreatine and glucose with a concomittant accumulation of AMP and lactic acid in cortical tissue. These changes were accompanied by a decrease of tissue aspartate and glutamine whereas the contents of gamma-aminobutyric acid (GABA), phenylalanine, leucine, isoleucine, valine and alanine increased. In the extracellular fluid GABA, glutamate, aspartate, taurine, glycine and alanine all increased multi-fold during hypoxic-ischemia. Aspartate and glutamate returned to near initial levels 2 h after the end of the insult, whereas the elevation of glycine persisted during recovery. In conclusion, the high extracellular levels of EAAs and glycine may exert injurious effects during and after hypoxic-ischemia.
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PMID:Intra- and extracellular changes of amino acids in the cerebral cortex of the neonatal rat during hypoxic-ischemia. 178 36

In a clinical setting, the effect of Eurocollins (EC) and University of Wisconsin solution (UW) on liver grafts were studied in the early reperfusion phase of liver transplantation. Blood samples were drawn before and after declamping of the portal vein in a group of 11 transplants with EC-perfused livers, and a group of 12 transplants with UW-perfused livers. Parenchymal damage was assessed by the LDH, AST, and ALT, and purine degradation by measuring the uric acid levels. Metabolic function was determined by the serum bile acids and the plasma amino acids, i.e. (valine + leucine + isoleucine)/(phenylalanine + tyrosine) ratio. Donor and pretransplant recipient parameters were almost identical. The cold ischemia time of both groups differed significantly. The results show the following: a significant difference between both the LDH and the uric acid levels in the two groups was revealed, with a smaller increase of the LDH levels and no increase of the uric acid levels in the UW group. Metabolic activity, as measured from the bile acids and the amino acid profile in the peripheral blood, was identical in both groups. We conclude that both EC-stored and UW-stored liver grafts show immediate metabolic function after reperfusion. The amount of metabolic function was equal in both groups, notwithstanding longer cold ischemia time in the UW group. In addition, more parenchymal damage occurred in the EC group.
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PMID:Cellular damage and early metabolic function of transplanted livers stored in Eurocollins or University of Wisconsin solution. 180 31

Primary amyloidosis and myeloma associated amyloidosis causes neuropathy in 10% of the cases, and hemodialysis associated amyloidosis causes carpal tunnel syndrome. However, most severe amyloid neuropathy is observed in familial amyloidotic polyneuropathy (FAP). FAP type I is an autosomal dominant systemic amyloidosis characterized by sensory dominant systemic amyloidosis characterized by dissociated sensory disturbance and autonomic dysfunction. Amyloid deposition is noted universally in endoneurium of peripheral nerve, especially prominent in sural, sciatic nerve, dorsal root ganglia and sympathetic ganglia. Moderate deposition was also noted in dorsal spinal root. Amyloid was absent in CNS. The number of small myelinated fibers is decreased. Unmyelinated axons are severely depleted and amyloid fibrils are observed around the wall of small vessels. Amyloid fibril protein consists of variant transthyretin (TTR:prealbumin) with one amino acid substitution of methionine-for-valine at position 30. Other types of FAP show another one point mutation in TTR molecule. Transgenic mouse model of FAP was produced by microinjecting cloned human variant TTR gene into mice. Amyloid were demonstrated in thyroid, kidney and intestine and so on, but not in peripheral nerve in these mice. Pathogenesis of neuropathy of FAP is not known, but mechanical compression to the nerve, ischemia and metabolic abnormality may play some role combined to cause of nerve fiber damage. The effect of deposition on physiochemical functions of the neuron and mechanism to accumulate in nervous system of the TTR remain to be elucidated.
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PMID:[Amyloid neuropathy]. 196 18

Excitatory amino acids have been implicated in the production of calcium mediated neuronal death following central nervous system ischemia. We have used microdialysis to investigate changes in the extracellular concentrations of amino acids in the spinal cord after aortic occlusion in the rabbit. Glutamate, aspartate, glutamine, asparagine, glycine, taurine, valine, and leucine were measured in the microdialysis perfusate by high pressure liquid chromatography. The concentrations of glutamate, glycine, and taurine were significantly higher during ischemia and reperfusion than controls. Delayed elevations in the concentrations of asparagine and valine were also detected. The elevation of glutamate is consistent with the hypothesis that excitotoxins may mediate neuronal damage in the ischemic spinal cord. Increased extracellular concentrations of asparagine and valine may reflect preferential use of amino acids for energy metabolism under ischemic conditions. The significance of increased concentrations of inhibitory amino acid neurotransmitters is unclear.
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PMID:Spinal cord ischemia-induced elevation of amino acids: extracellular measurement with microdialysis. 197 91

It is well established that excitatory amino acid neurotransmitters are extensively liberated during ischemia and that they have neurotoxic properties contributing to neuronal injury. To study changes in the liberation of excitatory and other amino acids during cerebral ischemia, we measured their extracellular concentrations and related them to blood flow levels and electrophysiologic activity (electrocorticogram and auditory evoked potentials) before and for up to 2 hours after multiple cerebral vessel occlusion in 14 anesthetized cats. Blood flow levels between 0 and 43 ml/100 g/min were reached. Concentrations of the excitatory amino acid neurotransmitters increased most (aspartate 10-fold, glutamate 30-fold, and gamma-aminobutyric acid 300-fold compared with control values) below a blood flow threshold of 20 ml/100 g/min. The total power of the electrocorticogram and the amplitude of the auditory evoked potentials were affected below the same blood flow threshold. In contrast, concentrations of the nontransmitter amino acids taurine, alanine, asparagine, serine, and glutamine increased 1.5-5-fold as blood flow decreased, while concentrations of the essential amino acids phenylalanine, valine, leucine, and isoleucine did not change during cerebral ischemia. The great increases in concentrations of the excitatory amino acid neurotransmitters below a blood flow threshold close to that for functional disturbance is in accordance with the role of these amino acids in ischemic cell damage. Their release at blood flow levels compatible with cell survival and the increase in their concentrations with severity and duration of cerebral ischemia imply that excitotoxic antagonists may have potential as therapeutic agents.
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PMID:Differences in ischemia-induced accumulation of amino acids in the cat cortex. 197 18

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

Protein and RNA synthesis of the brain is affected by focal transient ischemia. Protein synthesis is depressed by the depletion of energy metabolism during ischemia, and its recovery following recirculation is slower than restoration of energy metabolism. On the other hand, RNA synthesis is more tolerable to ischemia than protein synthesis. Present study has designed to evaluate changes of protein and RNA synthesis of the brain after ischemia. We used a hindbrain ischemia model of gerbils, and quantitative autoradiography was applied for estimation of regional protein and RNA synthesis. The model was made by occluding the basilar artery for 15 minutes and recirculating afterwards. 14C-valine was used as a tracer for protein synthesis. In the ischemic group, protein synthesis was inhibited extremely in the medial thalamus, inferior colliculus, gray matter of the pons and midbrain, and cerebellum, RNA synthesis by salvage pathway was evaluated using tracer doses of 14C-uridine. It increased 1.6-2.4 folds of sham controls in the thalamus, and gray matter of the pons and midbrain. De novo synthesis of RNA was evaluated using 14C-carbamoylphosphate and 14C-NaHCO3. 14C-NaHCO3 antoradiogram showed inhibition of tracer incorporation into RNA and protein fraction in the ischemic lesions. 14C-carbamoylphosphate autoradiogram showed no significant change. These results indicate that protein synthesis is inhibited after ischemia but response of RNA synthesis to ischemia is not uniform. De novo synthesis of RNA is inhibited following ischemia, but RNA synthesis by salvage pathway increases in the ischemic lesion.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Changes in protein and RNA synthesis following acute hindbrain ischemia]. 244 43

To clarify a possible cause of delayed neuronal death, synthesis of protein and ribonucleic acid (RNA) following transient forebrain ischemia was evaluated autoradiographically. Mongolian gerbils were subjected to transient forebrain ischemia for 5 minutes by occluding bilateral common carotid arteries. They were used for autoradiographic study at 1, 2, and 5 days after ischemia. Tracer dose of 14C-valine or 14C-uridine was injected intravenously, and animals were sacrificed 45 minutes thereafter. Brains were frozen and thin sliced for macroautoradiography. After the first autoradiogram was obtained, tissue sections were incubated in cold 5% trichloroacetic acid for 1 hour, dried and again used for autoradiogram. With this preparation we could differentiate the tracer incorporated into protein or RNA fraction from the total tissue radioactivity. In the different set of animals, microautoradiograms of 3H-valine and 3H-uridine was obtained to detect subcellular distribution of synthesized protein or RNA. At 1 day after ischemia, protein synthesis in the CA 1 region of the hippocampus was reduced by 57% of the sham control, but RNA synthesis was not reduced quantitatively. Microautoradiogram of 3H-uridine however, indicated that silver grains in the cytoplasms of the CA 1 pyramidal cells were much reduced as compared to sham controls, though the amount of silver grains in the nucleus was the same as sham controls. Therefore, synthesized RNA in the nucleus was not transported to the cytoplasm. At 2 days after ischemia, protein and RNA synthesis was preserved to the same level as sham controls.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Malfunction of gene expression as a possible cause of delayed neuronal death]. 246 13


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