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)

The effect of postdecapitative ischemia (5 min at 37 degrees) and hypoxia (5% O2, 95% N2, 30 min) on the distribution of protein radioactivity in the cellular fractions of guinea pig cerebral cortex was studied. Ischemic conditions resulted in the increase of total radioactivity level and protein content in the mitochondrial fraction. In the cytosol the opposite effect was observed; the radioactivity and protein content were decreased. The amino acid analysis of microsomal proteins and the distribution of glucose-6-phosphatase activity, differing from those in control animals, suggest structural disturbances in the microsomal fraction. The results indicate a different sedimentation of proteins in the given experimental conditions. After hypoxia such effects were not observed.
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PMID:Effect of hypoxia and ischemia on the distribution of protein in brain cellular fractions. 45 Jan 70

Marker enzyme activities of different subcellular fractions were analyzed in cortex homogenates from rat kidney after different periods (15, 30, 60, and 90 min) of warm ischemia. Lactate dehydrogenase, alanine aminopeptidase, N-acetyl-beta-D-glucosaminidase, and succinate-cytochrome c reductase were not altered by ischemia in these periods. ATPase (2,4-dinitrophenol-stimulated and azide-sensitive), 5'-nucleotidase, K-Mg-nitrophenylphosphatase decline within 30 min of ischemia, whereas the microsomal enzymes glucose-6-phosphatase and NADPH-cytochrome c reductase decreased not before 60 min of ischemia. The early decrease of ATPase and of plasma membrane enzymes can be regarded as a consequence of membrane alterations. This enzymatic approach may be helpful to evaluate pharmacological agents for preventing and reserving ischemic effects in kidneys in a rational manner.
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PMID:Changed enzyme activities in rat kidney during ischemia. 286 6

The level of oxidative phosphorylation, activity of phosphofructokinase, fructose-1,6-diphosphate aldolase, ketose-1-phosphate aldolase, glucose-6-phosphatase and lactate dehydrogenase are determined in subcellular fractions in the kidney cortex layer of rabbits which have suffered from acute ischemia (for 15, 30, 60, 120 min). Ischemia inhibits the oxidative processes in mitochondria which is proportional to the duration of the effect. An increase in the activity of glycolytic chain enzymes in microsomes and soluble fraction for 15-30 min of ischemia evidences for a compensation of the energy losses at the expense of glycolysis with short periods of ischemia. Glycolysis is inhibited with a more prolonged effect. It is established that the anti-ischemic protection of the organ viability is to be conducted not only with allo- but also with auto-transplantation of the kidney in case of short acute ischemia.
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PMID:[Energy metabolism in subcellular fractions of normal and acute ischemic kidneys]. 629 Dec 11

Glucose-6-phosphatase was tested histochemically as a gluconeogenesis marker of ischemia-reperfusion injury of proximal tubular cells in human renal transplants. Histochemical enzyme activity, histology and transplantation conditions (preservation solution, cold and warm ischemia time, donor age), were compared to renal transplant evolution. Neither histology nor transplantation conditions were correlated with renal transplant evolution. Only glucose-6-phosphatase activity was significantly correlated with transplant evolution and could be used as a more sensitive marker than histology for the detection of ischemia-reperfusion injury of proximal tubules.
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PMID:Histoenzymatic study of human renal tissue preservation: I--Proximal tubular glucose-6-phosphatase is correlated with transplant evolution. 806 69

Cellular redox status and membrane protein activities were analyzed in kidneys from rats with ischemic acute renal failure (ARF). ARF was induced by clamping the left renal artery for 50 min. A parallel group of control animals was processed. In the ischemic group urea plasma levels were statistically increased as compared with the control group. Studies employing whole kidney homogenates revealed that ischemia produces an increment in lipid peroxidation levels and a reduction in glutathione concentration and in superoxide dismutase and glutathione peroxidase activities. Since lipid peroxidation may alter the function of membrane proteins we determined succinate cytochrome c reductase (SuccR), sodium-potassium ATPase (Na-K-ATPase), glucose-6-phosphatase (G-6-Pase) and alkaline phosphatase (ALP) activities in whole renal homogenates. Only G-6-Pase and ALP activities were modified by ischemia. Since ALP is a brush border membrane (BBM) enzyme and BBM is one of the main target structures in ARF, we assessed some parameters of BBM functionality. ALP, gamma-glutamyl transferase (gamma-GT) and 5'-nucleotidase (5'-NT) showed diminished activities in BBM from ischemic kidneys. Ischemia also modified the Vmax of paraaminohippuric acid (PAH) uptake without altering Km. An increment of lipid peroxidation and membrane fluidity in BBM was observed after the treatment. Total membrane proteins and protein recoveries in BBM were similar in both experimental groups. Sialic acid and sulfhydryl levels were similar in BBM from ischemic kidney and control ones. In summary, ARF induced by renal artery clamping for 50 min takes place with a significant increase in urea plasma levels. A decrease in the antioxidant defense system is detected. This induces lipid peroxidation in whole renal tissue, which may justify the diminished activities of some membrane enzymes such as G-6-Pase and ALP. A specific analysis of BBM function reveals a significant increment of lipid peroxidation which may be the cause of an increased membrane fluidity. This latter parameter might be, at least in part, responsible for the damaged function of apical ALP, 5'-NT, gamma-GT and PAH carrier.
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PMID:Impairment of cellular redox status and membrane protein activities in kidneys from rats with ischemic acute renal failure. 968 97

In order to examine glucose metabolism in liver grafts after cold ischemia and reperfusion, the heterogeneous lobular distribution pattern of glycogen content and glucose-6-phosphatase activity was studied using histochemical methods. The characteristic heterogeneous lobular distribution pattern of glycogen and glucose-6-phosphatase was maintained after preservation and reperfusion. However, it appeared that glycogen content decreased in both periportal and centrilobular hepatocytes after reperfusion. The glycogen decrease was higher in periportal hepatocytes. Glucose-6-phosphatase activity was maintained after reperfusion in most of the cases in periportal hepatocytes. In centrilobular hepatocytes, more cases showed a decrease in enzyme activity. It is suggested that ischemia-reperfusion mainly affects the glycogen content in both periportal and centrilobular hepatocytes and that centrilobular glucose-6-phosphatase activity is more sensitive to ischemia-reperfusion injury than periportal hepatocytes.
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PMID:Effect of ischemia-reperfusion on the heterogeneous lobular distribution pattern of glycogen content and glucose-6-phosphatase activity in human liver allograft. 1064 70

We determined the relationship between lipid peroxidation and alterations in hepatic secretory and microsomal function during various periods of hepatic ischemia/reperfusion. Rats were pretreated with alpha-tocopherol or vehicle and then subjected to 30, 60, and 90 min, no-flow hepatic ischemia in vivo with 1 or 5 h of reperfusion. Serum aminotransferase (ALT) level, wet-dry weight ratio, and lipid peroxidation were increased at 1 and 5 h of reperfusion, and these changes were significantly attenuated by alpha-tocopherol. Na+, K+-ATPase activity, and glucose-6-phosphatase activity were significantly decreased in 90-min ischemic rats, and these decreases were ameliorated by alpha-tocopherol. After 90 min of ischemia, bile flow, cholate output, and bilirubin output were markedly decreased by ischemia/reperfusion, and alpha-tocopherol restored the secretion. Cytochrome P450 content was decreased by ischemia/reperfusion and restored by alpha-tocopherol to the level of that found in the sham-operated group. Aminopyrine N-demethylase activity was decreased, and aniline p-hydroxylase was increased in 60-min ischemic rats. The changes in the activities of the two enzymes were prevented by alpha-tocopherol. Our findings suggest that ischemia/reperfusion diminishes hepatic secretory functions and microsomal drug metabolizing systems in proportion to the duration of ischemia and reperfusion in vivo, and this is associated with increased lipid peroxidation.
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PMID:Hepatic injury and lipid peroxidation during ischemia and reperfusion. 1077 16

Peripheral vascular disease (PVD) has been reported to cause deterioration in insulin sensitivity. The precise mechanism of insulin resistance induced by PVD has not been clarified. To elucidate the mechanism causing impaired insulin action and glucose metabolism under peripheral ischemic conditions, we determined glucose turnover and glucose tolerance in hindlimb-ischemic (FAL) rats. The right femoral artery was ligated in hindlimb-ischemic (FAL) rats, while the artery was only exposed in the Sham operated (Sham) rats used as a control. Two weeks after the ligation, glucose tolerance was impaired and plasma insulin levels were significantly increased in FAL rats compared with Sham rats after intraperitoneal glucose loading (2 g kg(-1)). Under euglycemic hyperinsulinemic clamp conditions, the glucose infusion rate was significantly lower in FAL rats compared with Sham rats, but there was no significant difference in the glucose disappearance rate between the two groups. Hyperinsulinemia suppressed endogenous glucose production by 50% in Sham rats, while the suppression was 20% in FAL rats, indicating hepatic insulin resistance in FAL rats. mRNA analysis of isolated liver after the clamp experiment revealed that glucokinase mRNA, but not PEPCK and glucose-6-phosphatase mRNA, was significantly lower in FAL rats compared with Sham rats. In conclusion, chronic hindlimb ischemia impaired glucose tolerance associated with insulin resistance in the liver rather than the peripheral tissues.
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PMID:Hepatic insulin resistance induced by chronic hindlimb ischemia. 1609 16

The wood frog (Rana sylvatica) is one of only a few vertebrate species that can survive extensive freezing of its body fluids during the winter. The mechanisms of natural freeze tolerance include metabolic rate depression to conserve energy and the implementation of cryoprotective strategies, especially the synthesis of huge amounts of glucose as a cryoprotectant. Liver is the main source of glucose production/export (and other cryoprotective actions) and plays a central role in freezing survival of the whole animal. Freezing is a multi-component stress that includes anoxia/ischemia due to the cessation of blood flow and dehydration of cells caused by ice accumulation in extracellular spaces. To help endure these stresses, cells need to suppress and reprioritize ATP-expensive cell functions. One of these is cell growth and proliferation, and we hypothesized that cell cycle arrest would be key to freezing survival. The present study examines the responses by key cell cycle components to freezing, anoxia and dehydration stresses in wood frog liver. Immunoblotting was used to investigate protein expression of Cdc 2, Cdks (2, 4, 6), and cyclins (A, B1, D1, E) as well as the phosphorylation states of Cdks (Thr14/Tyr15), the phosphatases Cdc25a (Ser76) and Cdc25c (Ser216) and the CIP/KIP Cdk inhibitors p21 (Thr145) and p27 (Thr187). Responses to 24 h freezing, 24 h anoxia and 40% dehydration as well as recovery from these stresses were analyzed. The results showed very similar responses by cell cycle components to anoxia or dehydration and were consistent with cell cycle suppression under stress and reversal during recovery. Freezing showed elements of cell cycle suppression, including reduced protein levels of Cdks and cyclins A and B1, but also showed unique responses by cyclin D1, Cdc25 phosphatases and p21/p27. These may be linked with alternative actions by these proteins that contribute to cryoprotection; e.g., an alternative action of cyclin D1 as a transcription factor may contribute to the upregulation of glucose-6-phosphatase, a key enzyme needed for the export of glucose cryoprotectant.
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PMID:Cell cycle regulation in the freeze tolerant wood frog, Rana sylvatica. 2251 May 73

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