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)

It was shown in experiments in vitro that thermal ischemia of liver tissue leads to disorders in the function of membrane-bound microsomal monooxygenases. Disorders in the structural organization of membranes were also expressed in the inhibition of reactions of ascorbate-depending and fermentative peroxide oxidation of lipids and labilization of lysosomal membranes. Faults in the rate of amidopyrine n-demethylation and aniline n-hydroxylation correlate with the intensification of spontaneous peroxidation of lipids and activation of proteolytic processes in ischemia. The obtained data permitted to ground the approach to pharmacological prophylaxis of ischemic damages of liver microsomal monooxygenases.
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PMID:[Mechanisms of the damage to the liver monooxygenase systems in thermal ischemia]. 370 79

The experiments on rats have shown that total hepatic ischemia reduces the content of microsomal cytochromes P-450 and b5 and causes amidopyrine and aniline disturbances over a 2-3-week post-ischemic period. The analysis of hepatocyte ultrastructure has revealed the interdependence of structural and functional changes in endoplasmic reticulum during recovery period. The damage of monooxygenase inducibility correlated with stable decline in the number of fixed ribosomes in post-ischemic period.
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PMID:[Structural-functional aspects of the postischemic recovery of the hepatocyte endoplasmic network in rats]. 395 8

It has been well recognized that acyl groups of phospholipids play an important role for structure and function of biomembrane. The turnover of these acyl groups in normal brain biomembrane is also well known. Some types of enzymic system related to this turnover has been investigated. Phospholipase A, PI-specific phospholipase C, lipase, lysophospholipase and acylCoA: lysophospholipid acyltransferase belong to these enzymic systems. In this report, the sequential changes of phospholipase A, PI-specific phospholipase C, lipase, lysophospholipase and acylCoA: lysophospholipid acyltransferase activities in ischemic rat brain were examined. The purpose of this study was to examine the enzymic changes of deacylation-reacylation cycle of biomembrane phospholipid in ischemic brain. Ischemic brain were produced by decapitation and activities of 5 enzymes were assayed in microsomal fraction. The activities of phospholipase A, PI-specific phospholipase C, lipase showed high value during early stage of ischemia for 15 or 30 min and then decreased gradually. Lysophospholipase activity was not changed for 120 min. On the other hand, acylCoA: lysophospholipid acyltransferase activity showed gradual decrease from the beginning of ischemia. There are some reports that in early ischemic stage, the concent of free fatty acids increase, while that of phospholipid decrease. The present results may suggest that the changes of free fatty acid and phospholipid in ischemic brain are related to these enzymic system.
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PMID:[The activities of phospholipase A, PI-specific phospholipase C, lipase, lysophospholipase and acylCoA: lysophospholipid acyltransferase in ischemic brain microsomal fraction]. 402 86

An accelerated degradation of phospholipid is the likely basis of irreversible cell injury in ischemia, and the membranes of the endoplasmic reticulum of the liver are a convenient system with which to study the effect of such a disturbance on the structure and function of cellular membranes. In the present report, electron spin resonance spectroscopy has been used to evaluate changes in the molecular ordering of microsomal membrane phospholipids in the attempt to relate the loss of lipid to alterations in membrane structure. The order parameter, S, was calculated from spectra reflecting the anisotropic motion of 12-doxyl stearic acid incorporated into normal and 3-h ischemic microsomal membranes. Over the temperature range 4-40 degrees C, the molecular order (S) of ischemic membranes was increased by 8-10%. This increase was reproduced in the ordering of the phospholipids in liposomes prepared from total lipid extracts of the same membranes. In contrast, after removal of the neutral lipids, liposomes prepared from phospholipids of ischemic and control membranes had the same molecular order. There were no differences in the phospholipid species of control and ischemic membranes or in the fatty acid composition of the phospholipids. In the neutral lipid fraction of ischemic membranes, however, triglycerides and cholesterol were increased compared to control preparations. There were no free fatty acids. The total cholesterol content of the liver was unchanged after 3 h of ischemia. The cholesterol-to-phospholipid ratio of ischemic membranes, however, was increased by 22% from 0.258 to 0.315 as a consequence of the loss of phospholipid. Addition of cholesterol to the control total lipid extracts to give a cholesterol-to-phospholipid ratio the same as in ischemic membranes resulted in liposomes with order parameters similar to those of liposomes prepared from ischemic total lipids. It is concluded that the degradation of the phospholipids of the microsomal membrane results in a relative increase in the cholesterol-to-phospholipid ratio. This is accompanied, in turn, by an increased molecular order of the residual membrane phospholipids.
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PMID:Liver ischemia increases the molecular order of microsomal membranes by increasing the cholesterol-to-phospholipid ratio. 609 67

Hind-limb ischemia secondary to infrarenal aortic ligation in the rat was evaluated as a traumatic injury model for the study of the effects of trauma on the two major hepatic microsomal drug-oxidizing enzyme systems. Ischemic injury resulted in a significant decrease in hepatic cytochrome P-450 content and FAD-containing monooxygenase activity. Bilateral lower leg fracture was used as a dissimilar traumatic injury model in order to confirm these results and produced similar effects on these enzyme systems. Both forms of injury appeared to be of only moderate severity, and neither injury caused significant histopathological changes in the liver. Moreover, both injuries caused only mild hepatic damage as indicated by relatively modest elevations in glutamic-pyruvic transaminase levels. The observed reductions of cytochrome P-450 content with both forms of model injury were paralleled by decreases in the in vivo metabolism of antipyrine. Thus, it appears that trauma may have a significant, and possibly selective, effect on hepatic drug metabolism, suggesting that careful monitoring and/or dosage adjustment may be in order in some cases of post-traumatic drug therapy. Moreover, the ischemic injury produced by infrarenal aortic ligation in the rat appears to be a suitable small mammal injury model for the further study of the effects of trauma on the various hepatic drug-metabolizing enzyme systems.
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PMID:Effects of model traumatic injury on hepatic drug metabolism in the rat. I. In vivo antipyrine metabolism. 614 Jan 33

A previously validated small mammal trauma model, hind-limb ischemia secondary to infrarenal aortic ligation in the rat, was utilized to further investigate the effects of traumatic injury on the hepatic cytochromes P-450. In vitro drug metabolism studies with hexobarbital and zoxazolamine as substrates confirmed the post-traumatic depression of the cytochrome P-450-catalyzed oxidation of these drugs which was suggested by previous in vivo pharmacokinetic studies. Enzyme kinetic studies revealed diminished Vmax values with no change in Km, a finding which would seem to concur with the previously demonstrated decrease in hepatic cytochrome P-450 content after model trauma. Moreover, a battery of in vitro microsomal monooxygenase assays demonstrated that model trauma exerted a differential effect on various hepatic cytochrome P-450 isoenzymes. This phenomenon was confirmed by anion-exchange HPLC of solubilized hepatic microsomal hemoproteins. One of the most interesting aspects of this selective effect on cytochrome P-450 subtypes was the relative induction of cytochrome P-448 content and activity, in contrast to the variable decrease seen with cytochrome P-450 activities. The potential in vivo sequelae of this differential influence were suggested by changes observed in the urinary metabolic profile of antipyrine after model trauma.
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PMID:Effects of model traumatic injury on hepatic drug metabolism in the rat. III. Differential responses of cytochrome P-450 subpopulations. 614 9

We have studied the localization of osmium reduction products to investigate the functional state of organelles as well as organelle interrelationships during cell injury. In normal hepatocytes osmium deposits of variable intensity are seen in nuclear envelope, endoplasmic reticulum. Golgi cisternae and vesicles and lysosomes. Buffering of osmium with s- collidine (pH 7.4) prevents the deposition of osmium. Reversible (30 min) and irreversible (60 min) ischemia without reflow causes no change in the pattern of osmium deposition. Irreversible ischemia followed by reflow causes decreased staining of endoplasmic reticulum (ER) and redistribution of the osmium deposits through the cytoplasm. Reversibly injured pancreatic acinar cells in cultured explants manifest a similar loss of osmium staining in the endoplasmic reticulum cisternae. The administration of antimicrotubule drugs induces an accentuation of osmium staining in localized cisternal elements of hepatocytes. These heavily stained cisternae appear to give rise to the bounding membranes of drug-induced autophagic vacuoles. Cytoplasmic organelles sequestered inside the autophagic vacuoles acquire intense staining when they begin to undergo degradation. In homogenized liver tissue all the subcellular organelles show osmium deposits. The deposits are preferentially localized along the organelle membranes. In particular the dense deposits in the ER lumen are not seen in the subcellular fractions. Phospholipase A2 (3 units/mg protein) enhances the deposition of osmium in the lumen of microsomal vesicles, whereas the presence of detergent has no such effect. Addition of EDTA to the homogenizing medium enhances the ultrastructural preservation of the subcellular fractions but has little effect on the deposition of osmium. OsO4 deposition occurs at acid pH and the intensity and pattern of the stain can be modified in vivo and in vitro. Osmium tetroxide deposition is induced at sites of membrane transformation (autophagic vacuoles) and degradation (lysosomes). Calcium influx and phospholipase activation (ischemia, tissue homogenization, phospholipase addition) enhance osmium deposition and/or influence the localization of the staining pattern.
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PMID:Unbuffered osmium staining of cell organelles: alterations induced by cell injury. 620 40

Previous studies have identified a cellular energy deficit in gastric mucosa after ischemia. We studied the processes of energy generation (mitochondrial function) and energy utilization (microsomal adenosine triphosphatase [ATPase] activity) in an experimental model of stress. Rabbits were divided into four groups: I, fed controls (n = 7); II, 24-hour fasted controls (n = 7); III, fasted, anesthetized, and cannulated controls (n = 7); and IV, fasted, anesthetized, cannulated, and bled rabbits. Bleeding consisted of 25 ml blood/kg into a reservoir for 60 minutes; the blood was then reinfused. Animals were killed 30 minutes after reinfusion; antral, corpus, and fundus mucosae were dissected; each region of mucosa was homogenized; and mitochondrial and microsomal fractions were isolated by differential centrifugation. No animals in group I or II had gastric ulcerations. Three of seven animals in group III and all group IV animals had corpus and fundus ulcers. No antral ulcers were seen in any group. The respiratory control index (RCI) of antral mitochondria was increased in groups II, III, and IV but was unchanged in all groups of corpus and fundus mitochondria. Studies of microsomal ATPase activity indicated increased activity of potassium-stimulated ATPase in the corpus mucosa. In the corpus mucosa, total ATPase activity was increased primarily as a consequence of increased potassium-stimulated ATPase. These data indicate that increased RCI is associated with gastric mucosal integrity in the antrum. Accelerated utilization of available adenosine triphosphate by corpus membrane ATPases may further compromise energy homeostasis during stress.
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PMID:Bioenergy metabolism of gastric mucosa during stress. 621 53

It has been demonstrated in rat experiments that total ischemia of the liver leads to disorders of the metabolism of xenobiotics and endogenous substrates. Upset hexenal metabolism manifests in the prolongation of the hexenal-induced sleep and hexenal concentration elevation in blood plasma for 18 days of the postischemic period. Following exposure to ischemia liver microsomes show a decrease in the rate of amidopyrine, aniline and hydrocortisone hydroxylation. Hydrocortisone metabolism returns to normal by day 14, that of amidopyrine by day 21 of the postischemic period. Aniline metabolism gets disturbed to a greater degree, remaining 33.4% lower by day 21. It has been shown that the inducibility of microsomal monooxygenases is substantially restricted by days 7 and 14 of the postischemic period.
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PMID:[Characteristics of the ischemic disorders of xenobiotic metabolism in the liver of rats in the early and late stages of recovery]. 673 4

Animal experiments were made to study and compare enzymatic activity of brain tissue mitochondria and microsomes treated and untreated with Tween-80 and Triton-X-100. In Mongolian gerbils, the 10-minute brain ischemia induced by bilateral carotid occlusion led to the labilization of the membranes of microsomal fractions, which did not return to normal an hour after resuscitation. The destructive effect of ischemia combined with clinical death from mechanical aspnyxia was similar to that of Triton-X-100. The ten-minute clinical death from ventricular fibrillation due to electroshock in dogs labilized lysosomal membranes. During the first hour after resuscitation and especially during the first 24 hours, the treatment of crude mitochondria with Tween-80 did not activate alkaline phosphatase and plasminogenic activator as compared with the control group.
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PMID:[Membrane damage in brain subcellular structures in terminal states and in the postresuscitation period]. 685 85


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