UMLS:C0022116 - FACTA Search

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

The metabolism of lysophosphatidylcholine (LPC) in non-ischemic and ischemic canine heart was investigated by in vitro enzyme analysis. Selected subcellular fractions were assayed for the LPC-producing enzyme phospholipase A and the LPC-eliminating enzymes LPC:acyl-CoA acyltransferase, LPC:LPC transacylase and lysophospholipase. The canine heart was found to contain all enzymes differing, however, in subcellular distribution and specific activity. Phospholipase A activity did not change significantly in any of the fractions prepared from the ischemic tissue of hearts rendered ischemic for 1, 3 or 5 hr when compared to non-ischemic tissue. Changes in the activity of the microsomal LPC:acyl-CoA acyltransferase over the course of 5 hr of ischemia were observed. Significant decreases in the activity of the cytosolic and microsomal lysophospholipases were detected especially after 3 and 5 hr of ischemia. Similarly, a decrease in the activity of the microsomal LPC:LPC transacylase was noted after 3 and 5 hr of ischemia. Our results suggest that impaired catabolism of LPC rather than an enhanced production of LPC is the principal mechanism for the increase in LPC levels in the ischemic canine heart.
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PMID:Mechanism of lysophosphatidylcholine accumulation in the ischemic canine heart. 239 14

O2-generation rate (Vo2-) in microsomal, mitochondrial and nuclei liver membranes was measured by ESR method, by accumulation of stable nitroxide radicals. These Vo2- values were compared with Cu, ZnSOD and MnSOD activities after 2 hours ischemia and 24 hours reoxygenation. O2- radicals generated by electron transfer chains are concluded to damage mainly during the ischemia, but not the reoxygenation.
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PMID:[Membranes of subcellular organelles as the source of superoxide radicals in liver ischemia]. 239 90

The effects of pronase and/or SDS pretreatment on Na+-Ca2+ exchange were studied in rat brain microsomal membranes. Pronase in concentrations that liberated 11% of the membrane proteins stimulated the Na+-Ca2+ exchange. When about 24% of the proteins were split off, the results did not differ from those in control experiments. When 40% or more of the proteins were solubilized, Na+-Ca2+ exchange was abolished. Pronase pretreatment did not change the Km value for Ca2+, it increased Vmax only. The effect of pronase was partially blocked by Trasylol. Neuraminidase had no effect on Na+-Ca2+ exchange. SDS pretreatment of the membranes inhibited Na+-Ca2+ exchange: when 25% of membrane proteins were solubilized with SDS, the Na+-Ca2+ exchange was abolished while the same amount of proteins split off with pronase did not change the rate of Na+-Ca2+ exchange as related to membrane proteins. Ischaemia lasting for 2-4 h or complete hypoxia which should stimulate endogenous proteinases due to the rise of free intracellular calcium did not influence the Na+-Ca2+ exchange. A decrease in Na+-Ca2+ exchange rate was observed when proteins with molecular weight between 45,000 and 20,000 were split off from the membranes. It is assumed that the Na+-Ca2+ antiporter is a polypeptide from the group of proteins within the above molecular weights.
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PMID:Na+-Ca2+ exchange in rat brain microsomal membranes pretreated with pronase and/or SDS. 241 32

It was found in experiments on the in vitro model of rat liver ischemia that ischemia initiates membrane lipid peroxidation and proteolysis leading to damage of monooxygenase enzyme systems of microsomes. Preventive administration of alpha-tocopherol, lidocaine, contrykal and their combinations revealed the optimal protective effect of the combined administration of alpha-tocopherol with lidocaine and alpha-tocopherol with contrykal as compared to their separate use on the functional activity of microsomal monooxygenases at thermal ischemia of the liver. A combined approach to prevention of impairment of the liver function at its ischemia was recommended.
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PMID:[Prevention of damages to the microsomal monooxygenases in thermal ischemia of the liver by the separate and combined use of alpha-tocopherol, lidocaine and kontrikal]. 243 54

Several studies indicate that myocardial ischemia causes a redistribution of beta-adrenergic receptors from a presumably intracellular compartment to the cell surface. However, a decreased adenylate cyclase and contractile responsiveness to beta-adrenergic stimuli has also been reported. The aim of the present study was to investigate possible ischemia-induced changes in myocardial beta-adrenoceptor coupling to adenylate cyclase. Myocardial ischemia was induced by hydraulic occlusion of the LAD in mongrel dogs anesthetized with isoflurane. After 90 min of ischemia, tissue samples were removed from the ischemic and nonischemic regions for tissue catecholamine determinations and for the preparation of particulate fractions from tissue homogenates. Saturation experiments on microsomal fractions obtained from the ischemic and control areas did not reveal any significant changes in the calculated dissociation constant for (-)[125I]iodocyanopindolol binding nor in the calculated receptor density. Likewise, the relative numbers of beta 2-adrenergic receptors were comparable in both preparations (approximately 20%). On the other hand, the proportion of beta-adrenoceptors stabilized in the high-affinity state by (-)isoproterenol was significantly reduced in the ischemic region when compared with the control myocardium (17 +/- 5 vs. 41 +/- 4%). This change was accompanied by a significant decrease in the intrinsic activity of (-)isoproterenol in stimulating adenylate cyclase activity. We propose that the initial uncoupling of the beta-adrenoceptor from its effector is a physiologically important, protective mechanism which guards the ischemic myocardium against the deleterious effect of excessive sympathetic stimulation.
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PMID:Effects of ischemia on the canine myocardial beta-adrenoceptor-linked adenylate cyclase system. 244 7

A monoclonal antibody (mAb 4B4) was raised against purified sarcoplasmic reticulum vesicles from canine myocardium, and shown to inhibit Ca2+ uptake by microsomes isolated from cardiac, skeletal, and smooth muscle. The amount of mAb 4B4 needed to inhibit the Ca2+ uptake 50% at a given membrane concentration correlated with the amount of Ca2+ pump protein in the microsomal preparation. This is consistent with the observation the mAb 4B4 binds specifically to the sarcoplasmic/endoplasmic reticulum Ca2+ pump (Mr 100 kDa), but has no effect on the T-tubule Mg2+-ATPase. Changes in the binding of mAb 4B4 to crude microsomes isolated from dog heart after various durations of global ischemia showed that the decrease in microsomal Ca2+ transport during the first 15 min of ischemia correlated with a loss of active Ca2+ pump molecules. The monoclonal antibody mAb 4B4 may therefore serve as a specific marker for the sarcoplasmic/endoplasmic reticulum Ca2+ pump system in various cells, and can provide quantitative information about the loss of active Ca2+ pump proteins under pathological conditions.
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PMID:Monoclonal antibodies to dog heart sarcoplasmic reticulum as markers of endoplasmic reticulum. 254 29

The effect of an experimental ischemia lasting for 45 minutes and a subsequent period of reperfusion of equal length on the activity of xanthine oxidase (XO) and microsomal NADPH-cytochrome P450 reductase (NADPH-CR) were investigated in the small intestinal mucosa of male neonatal calves of the breed German "Schwarzbunte". The activity of the NADPH-CR was determined by chemiluminescence. The activity of XO decreased during ischemia, but rose to values above the control level following reperfusion. 5 mg of Cu2(succinate)2 (CuSu) administered either intraarterially or intraluminally during reperfusion prevented the rise in XO. Formation of malondialdehyde decreased in the presence of CuSu. The NADPH-CR likewise showed subnormal activity values during ischemia, but also remained at a low level during reperfusion. The activity of this enzyme was further lowered by local intraarterial or intraluminal administration of 5 mg of CuSu and by 120 mg of CuSu administered intravenously during the reperfusion. These results are discussed with regard to the superoxide anion radical induced tissue lesions observed during reperfusion.
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PMID:Investigations on the influence of copper succinate on the production of superoxide anion radicals by bovine small intestinal mucosa cells. 255 59

The calmodulin content in cardiomyocyte cytosol of hypoxic myocardium is increased compared to normal level. This is unaccompanied by differences in the stimulating effect of calmodulin on Ca2+ transport in sarcoplasmic reticulum (SR) of ischemic heart. The decrease of the endogenous cAMP-dependent protein kinase activity in ischemia is associated with the lowered resistance to trypsinolysis of Ca2+ transport in SR (trypsin/microsomal protein ratio is 1:10) with simultaneous Ca-ATPase activation. In the presence of exogenous protein kinase and cAMP the protective effect of phosphorylation on Ca2+ transport in SR vesicles of hypoxic cardiomyocytes treated with trypsin for 10 min reaches the same level as in intact heart.
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PMID:[cAMP, calmodulin-dependent stimulation and stability to proteolysis of Ca 2+ transport in the heart sarcoplasmic reticulum]. 256 Dec 65

The lung is especially sensitive to a variety of vastly different agents and conditions including hyperoxia, certain drugs and xenobiotics, particulate debris, and ischemia/reperfusion. There is a growing body of experimental data to suggest that most, if not all, of these agents or conditions mediate pulmonary injury by forming reactive O2 metabolites such as O2-., H2O2.OH, HOCl, and RNHCl. The presence mechanisms by which these different agents converge to produce free radical-mediated pulmonary injury is not entirely clear. The lung does contain several metabolic pathways that will produce large amounts of reactive O2 metabolites. For example, hyperoxia-induced pulmonary injury may be mediated by oxidants produced by both mitochondrial and microsomal electron transport. Certain drugs and xenobiotics may be metabolized by nonspecific flavoproteins found in the mitochondrial electron transport chain and associated with microsomal mixed function oxidase system to yield a variety of free radicals and oxidants. Inhalation of particulate debris will activate resident phagocytic leukocytes to produce large quantities of cytotoxic oxidants. Ischemia and reperfusion appear to produce substantial amounts of xanthine oxidase-derived oxy-radicals that recruit and activate inflammatory phagocytes to produce cytotoxic HOCl and N-chlorinated oxidants. Finally, inappropriate metabolism of arachidonate by prostaglandin synthetase in the presence of NADH (NADPH) produces a burst of O2-. The fact that the lung contains so many different metabolic avenues for oxidant and free radical production suggests that this particular organ may be the most sensitive to oxidative insult.
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PMID:Metabolic sources of reactive oxygen metabolites during oxidant stress and ischemia with reperfusion. 265 Sep 65

Ischemic rat brains were prepared by decapitation followed by incubation in an artificial cerebrospinal fluid at various times at 37 degrees C, and the levels of phospholipids, free fatty acids, and enzymes involved in their metabolism were studied. Activities of phospholipase A, phospholipase C, and di- and monoglyceride lipase, assayed with optimal concentrations of Ca2+ and lysophospholipase, did not significantly change by 60 min of ischemia, whereas acylation enzymes of lysophospholipid decreased in activity to an extent of 70% of control at 15 min after the ischemic treatment. The maximal activities were found at 8 x 10(-3)M, 1 x 10(-3) M, and 2 x 10(-2) M Ca2+ for phospholipase A, phospholipase C, and di- and monoglyceride lipases, respectively in microsomal fractions of both control and ischemic brain. Furthermore, the sensitivity of microsomal enzymes to endogenous Ca2+ was estimated in control and ischemic brain. The sensitivity of phospholipase C was found to be increased after 1 min of ischemic treatment, but those of phospholipase A and di- and monoglyceride lipase were not increased.
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PMID:Activities of enzymes metabolizing phospholipids in rat cerebral ischemia. 274 39

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