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 distribution of coenzyme A and carnitine between the mitochondrial and cytosolic compartments was determined in rat heart ventricular muscle. The CoA and carnitine levels of homogenate, mitochondrial, and postmitochondrial fractions were determined in nonperfused hearts and in hearts that were perfused under control and ischemic conditions. Using the mitochondrial marker enzymes, citrate synthase and cytochrome c oxidase, the cellular content of mitochondrial protein was determined to be 53 +/- 1.0 (nonperfused), 53.5 +/- 1.5 (control), and 58.1 +/- 2.2 (ischemic) mg/g of wet heart muscle. These values were used to calculate the contribution of the CoA and carnitine located in the mitochondrial compartment to the total cellular levels of CoA and carnitine. Under both control and ischemic conditions, approximately 95% of the cellular CoA was mitochondrial. The percentage of the total cellular carnitine associated with the mitochondria increased from 8 to 9% in nonperfused and control hearts to 25% during ischemia, indicating that a net transfer of carnitine occurred from the cytosol to the mitochondrial matrix.
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PMID:Coenzyme A and carnitine distribution in normal and ischemic hearts. 20 96

Major mitochondrial phospholipids were examined in rat brain after 30 minutes of reperfusion following 30- or 60-minute periods of ischemia to examine their changes and explore their relationship to mitochondrial dysfunction during postischemic reperfusion. The amount of phospholipids and the percentage of polyunsaturated fatty acid chains, which tended to decrease during 30 minutes of ischemia, recovered after reperfusion. However, after ischemia lasting for 60 minutes, these parameters did not recover but decreased further, suggesting progressive disruption of phospholipids by phospholipase A2 after reperfusion. These changes were particularly notable in cardiolipin, which is contained specifically in mitochondria. The changes were also closely associated with mitochondrial respiration and respiratory enzyme (cytochrome c oxidase and F0F1-adenosine triphosphatase) activities, which have been known to correlate with the amount of cardiolipin. These results suggest that phospholipid metabolism in mitochondrial membranes is an important factor bearing on the integrity of energy metabolism during postischemic reperfusion.
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PMID:Changes in major phospholipids of mitochondria during postischemic reperfusion in rat brain. 130 64

Changes in content of brain mitochondrial phospholipids were examined in rats after 30 and 60 min of decapitation ischemia compared with controls, to explore the degradation of the mitochondrial membrane and its relation to dysfunction of mitochondria. Activities of respiratory functions and respiratory enzymes (cytochrome c oxidase; F0F1-ATPase) decreased significantly during ischemia. Considerable decreases in cardiolipin and phosphatidylinositol content were observed after 60 min, and other phospholipids showed similar but nonsignificant decreases in content. The amount of polyunsaturated fatty acids chains, such as arachidonic and docosahexaenoic acids, was reduced in each phospholipid, in some cases significantly, after 30 and 60 min of ischemia in time-dependent manners. Degradation of mitochondrial phospholipids during ischemia associated with the deterioration of mitochondrial respiratory functions suggested the significance of such changes in phospholipid content in disintegration of cellular energy metabolism during cerebral ischemia.
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PMID:Degradation of mitochondrial phospholipids during experimental cerebral ischemia in rats. 165 Mar 95

The dramatic increase in the arachidonic acid (AA) level in the brain is a well-known molecular event during cerebral ischemia. As mitochondria are known to be one possible site of the cell damage, the effects of AA on the respiratory activity of rat brain mitochondria were investigated in vitro using an oxygen electrode. In NAD-linked respiration, respiratory control ratio was decreased significantly by AA, with an IC50 of 6.0 microM. AA had the dual effect on mitochondrial respiration, a decrease in state 3 and uncoupled state and an increase in state 4 (i.e., uncoupling) as reported by Hillered and Chan (J. Neurosci. Res. 19, 94-100, 1988). Furthermore, we found that other unsaturated long-chain free fatty acids (C18:1-C18:3, C20:1-C20:5) also showed such a dual effect. Cyclooxygenase metabolites of AA such as prostaglandins (D2, E2, F2 alpha, E1) and thromboxane B2, and lipoxygenase metabolites such as leukotrienes (D4, B4) and 5- or 12-hydroperoxyeicosatetraenoic acid had no significant effect. The inhibition of the uncoupled state by AA was more marked in NAD-linked than that in FAD-linked respiration, while the degree of uncoupling by AA were the same in both respirations. In spectrophotometrical measurement, the reduction of cytochromes and flavo-protein was markedly inhibited by AA in NAD-linked respiration, but not in the FAD-linked one. In addition, the activity of cytochrome c oxidase was scarcely inhibited by AA. These data suggest that AA itself, not its metabolites, may inhibit mitochondrial ATP production during brain ischemia and that AA may act on the site(s) closely related to NAD-linked respiration, but not the FAD-linked one, in addition to its uncoupling effect.
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PMID:A possible mechanism of mitochondrial dysfunction during cerebral ischemia: inhibition of mitochondrial respiration activity by arachidonic acid. 165 47

Changes of brain mitochondrial phospholipids during cerebral ischemia and recirculation were experimentally studied in a rat 4-vessel occlusion model, to explore the relation between changes of mitochondrial phospholipids and dysfunction of mitochondria. Respiratory functions, activities of respiratory enzymes (cytochrome c oxidase, F0F1-ATPase) were analyzed after 30 and 60 minutes of ischemia, and after 30 minutes of recirculation following each ischemic period. Activities of respiratory functions and respiratory enzymes decreased progressively during ischemia, which recovered completely after recirculation following 30 minutes of ischemia, while only partial recovery was observed after recirculation following 60 minutes of ischemia. In phospholipid analyses, contents of phospholipid classes tended to decrease time-dependently during ischemia, and compositions of polyunsaturated fatty acids (PUFA) such as arachidonic acid (20:4) and docosahexaenoic acid (22:6) were decreased preferentially. In recirculation, phosphatidylcholine (PC), phosphatidylethanolamine (PE), and cardiolipin (CL) showed recovery of contents of phospholipids and compositions of PUFA after recirculation following 30 minutes of ischemia, while further decrease of contents of phospholipids and compositions of PUFA were observed after recirculation following 60 minutes of ischemia, especially in CL. On the other hand, progressive degradation of phospholipids occurred after recirculation following both 30 and 60 minutes of ischemia in phosphatidylserine and phosphatidylinositol. Changes of major phospholipid classes such as PC, PE, and CL correlated with the changes of mitochondrial respiratory functions and activities of respiratory enzymes. In conclusion, changes of mitochondrial membrane phospholipids appear to affect the integrity of cellular energy metabolism via mitochondrial dysfunction during cerebral ischemia and recirculation.
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PMID:[Experimental studies on the changes of mitochondrial membrane phospholipids during cerebral ischemia and recirculation]. 213 Jul 66

The role of lipid peroxidation and endogenous oxygen-derived free radical scavengers on ischemia-reperfusion injury and tissue recovery in rat ulcer model corresponding to the gastric histopathology was investigated. Male Wistar rats weighting 200-250 g were heparinized before occlusion of the celiac axis for 1.5 h. Endogenous CuZn-superoxide dismutase (SOD), Mn-SOD, glutathione peroxidase, fumarase, cytochrome c oxidase, and thiobarbituric acid-reactive compounds as lipid peroxidation products were measured in the gastric tissue at 3 h, and 1, 2, 4, and 7 days after release and in the controls (no occlusion). At 3 h after release, erosion of the gastric mucosa was observed, and gastric ulcers beyond the muscularis mucosae were present in the gastric body 2 days later. Seven days after release, gastric ulcers had disappeared. Activity levels for all five enzymes (CuZn-SOD, Mn-SOD, glutathione peroxidase, fumarase, and cytochrome c oxidase) were low for days 1-4 after release and did not return to control levels by the seventh day. It was observed that the ulcer formation, as evidenced by the histopathology, was significantly related to the levels of endogenous CuZn-SOD, Mn-SOD, glutathione peroxidase, fumarase, and cytochrome c oxidase activities. Thiobarbituric acid-reactive compounds were also low through the entire course of ulcer formation. The study concludes that decreases in the levels of these oxygen-derived free radical scavengers may result in the formation of gastric ulcers; however, endogenous free-radical scavengers may not correspond with tissue recovery. Lipid peroxidation may not be related to ulcer formation.
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PMID:The role of endogenous free radical scavengers on tissue recovery in the experimental ulcer model. 217 May

Brief periods of cerebral ischemia result in prolonged inhibition of protein synthesis. In CA1 sector of hippocampus inhibition is irreversible, leading to delayed death of pyramidal neurons. In order to study the possible role of gene transcription in this process, expression of four individual RNAs was investigated in the gerbil brain after 5 min of global cerebral ischemia by in situ hybridization with the following nucleic acid probes: plasmid pMr100 (ribosomal RNA sequences), plasma pAG82 (cytochrome c oxidase sequences), plasmid p629 (amyloid A4 precursor protein of Alzheimer's disease, pre-A4 protein), and plasmid pHF beta A-1 (beta-actin sequences). Cytochrome c oxidase mRNA and ribosomal RNA did not show any changes in expression up to 48 hr after ischemia. After longer recirculation times they gradually declined in the CA1 sector of hippocampus in parallel with the morphological manifestation of delayed neuronal death. The pre-A4 mRNA transiently decreased after 8 hr of recirculation of the CA1 sector but then recovered before it finally disappeared in parallel with delayed neuronal death. The beta-actin mRNA transiently appeared to increase after 8 hr of recirculation in the stratum radiatum of hippocampus but then also declined and disappeared when CA1 neurons began to disintegrate. The possible significance of these changes in the pathogenesis of ischemic neuronal damage is discussed.
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PMID:Determination of RNA content in postischemic gerbil brain by in situ hybridization. 248 Dec 24

We have already described that ragged red fiber (RRF), core/targetoid fiber and type 1 fiber predominance were found at autopsy in the diaphragm taken from patients with chronic obstructive pulmonary diseases. The purpose of the present study is to investigate morphological and histochemical changes in the diaphragm in denervating neurologic disorders. The diaphragm in the costal portion was taken from 22 autopsy cases including 4 with amyotrophic lateral sclerosis (ALS), 4 cerebrovascular diseases, 3 Parkinson disease, 2 olivopontocerebellar atrophy. In addition, 4 diaphragm muscles were biopsied at the time of surgery for lung cancer. In the diaphragm we observed not only RRF and core/targetoid fiber but also cytoplasmic body and ring fiber in many cases. These findings were, however, not specific for neurologic disorders. Focal cytochrome c oxidase deficiency was found in muscles with RRF. It should be emphasized that RRF was absent in 3 of 4 cases with ALS and in a case with elevated hemidiaphragm from phrenic nerve paralysis. In the previous report, we suggested that RRF was formed under the relative ischemic state in overworking diaphragm. The relative ischemia means a condition that oxygen (energy) demand for respiratory work exceeds over oxygen supply from the blood in the overworking diaphragm. The reason why no RRF was found in the denervated muscle is that the ischemic state in the denervated muscles is relieved by immobilization after denervation. Karpati et al conformed that denervation prevented ischemic state in the muscle. Other histochemical features in the diaphragm included cytoplasmic body and ring fiber.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Morphological changes in human diaphragm--ragged red fiber, core/targetoid fiber, cytoplasmic body, and ring fiber]. 255 86

Ten of 17 muscle biopsy specimens from 15 patients with childhood dermatomyositis (DM) showed distinct perifascicular atrophy. The atrophic fibers showed the following characteristics: (1) decreased cytochrome c oxidase (CCO) activity, (2) rare positive reaction with acridine orange (AO) staining, (3) type 2C reaction in 7.9% (0.4-17.5%) of the fibers, (4) an increased number of activated satellite cells, (5) mitochondria which were increased in number but decreased in size, (6) a significantly decreased CCO activity in isolated mitochondria (51.6 +/- 30.3 nmol/min per mg mitochondrial protein) as compared with that in the controls (103.6 +/- 41.5). The major pathogenetic mechanism in muscles in childhood DM is thought to be ischemia due to involvement of the microvasculature. The presence of type 2C fibers and increased numbers of activated satellite cells reflect a focal repair process taking place concomitantly in the damaged myofibers. Mitochondrial enzyme defect, especially CCO deficiency is present not only in genetic disorders with mitochondrial involvement but in other neuromuscular disorders including inflammatory myopathies.
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PMID:Perifascicular atrophic fibers in childhood dermatomyositis with particular reference to mitochondrial changes. 285 14

We examined whether ultrastructural changes in renal mitochondria associated with Cyclosporine A treatment might reflect underlying alterations in mitochondrial molecular structure. A nonrejected renal transplant removed from a patient treated with Cyclosporine A showed a decreased level of beta subunit antigen of mitochondrial F1-ATPase compared to controls. This decrease was more marked in the medulla than in the cortex (56% vs. 70% of pooled controls). Spontaneously hypertensive rats treated with a high dose of Cyclosporine A showed a similar decrease of beta-subunit antigen in the renal medulla and decreased levels of two subunit antigens of cytochrome c oxidase, but had increased medullary levels of the alpha subunit antigen of the F1-ATPase. Such changes were not detected in a normotensive strain of rats. Our data indicate that Cyclosporine A administration is associated with structural alterations in renal mitochondria at the molecular level, predominantly in the medulla, and that additional renal damage due to ischemia or hypertension may predispose to this cyclosporine effect.
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PMID:Alterations in molecular structure of renal mitochondria associated with cyclosporine A treatment. 301 38


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