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: UNIPROT:O95477 (membrane-bound)
29,236 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Polymorphonuclear cells and monocytes (phagocytes) are a critical component of host defense against infections. However, these cells also play a significant role in host tissue damage in many noninfectious diseases, such as ischemia-reperfusion injury syndromes and rejection of transplanted organs. The leukocyte adhesion molecule family CD11/CD18 (beta 2 integrins) is critical to the function of polymorphonuclear cells and monocytes in inflammation and injury. Inherited deficiency of CD11/CD18 impairs phagocyte chemotaxis, adhesion and transmigration across endothelium, and clearance of invading microorganisms through phagocytosis and cell-mediated killing. Furthermore, murine monoclonal antibodies directed against the CD11b/CD18 (CR3) heterodimer have been shown to reduce, by 50%-80%, phagocyte-mediated ischemia-reperfusion injury in several organ systems, such as the myocardium, liver, and gastrointestinal tract and to inhibit development of insulin-dependent diabetes mellitus in nonobese diabetic (NOD) mice. Expression of CD11b/CD18 in a soluble and functional form might therefore be potentially useful as an anti-inflammatory agent. We have now expressed a recombinant soluble heterodimeric form of this human beta 2 integrin, normally expressed as two noncovalently associated membrane-bound subunits. The secreted receptor exhibited direct and specific binding to its ligand, iC3b, the major complement C3 opsonin, and inhibited binding of polymorphonuclear cells to recombinant interleukin 1-activated endothelium.
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PMID:Expression of a soluble and functional form of the human beta 2 integrin CD11b/CD18. 167 28

Hepatocytes isolated from adult rat livers were hypothermically preserved for 24 or 48 hr before being plated under conventional culture conditions. They were stored either in the Leibovitz medium, a cell culture medium with and without polyethylene glycol (PEG), a compound known to suppress ischemia-induced cell swelling, or in the University of Wisconsin solution, the most effective solution for cold organ preservation. After 24 or 48 hr of storage at 4.5 degrees C in Leibovitz medium, cell viability and adherence efficiency to plastic dish, were only slightly reduced, whereas University of Wisconsin hepatocytes had a decreased viability and (especially after 48-hr storage) lost their adhesion ability; they did not survive in vitro. The metabolic competence of hepatocytes maintained in Leibovitz medium was retained over the 3 days of culture, as shown by low extracellular levels of the membrane-bound and cytosolic hepatic enzymes, as well as by intracellular glutathione content, albumin secretion rate and several phase I and phase II drug metabolic reactions very close to those found with fresh hepatocytes maintained under similar culture conditions. Addition of polyethylene glycol to the Leibovitz medium resulted in slightly higher viability and function of hepatocytes after cold storage. These results clearly demonstrate that viability of a transplanted liver does not correlate with long-term in vitro viability of isolated hepatocytes after hypothermic preservation in University of Wisconsin solution. They also suggest that nutritional and energy substrates as found in the Leibovitz medium are probably required to define a suitable solution for cold preservation of isolated parenchymal cells. The findings with Leibovitz medium favor the conclusion that hypothermically preserved hepatocytes could be used for various metabolic studies and for the treatment of liver insufficiency.
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PMID:Viability and primary culture of rat hepatocytes after hypothermic preservation: the superiority of the Leibovitz medium over the University of Wisconsin solution for cold storage. 172 5

To elucidate the pathogenesis of acute acalculous cholecystitis, the gallbladder was subjected to ischemia-reperfusion by simultaneously occluding the middle hepatic artery and the superior mesenteric vein in dogs, and the degree of inflammation and biochemical changes in the gallbladder mucosa were studied by varying the duration of ischemia or reperfusion. Ischemia alone did not induce cholecystitis either macroscopically and histologically, although it increased phospholipase A2 (PLA2) activity, content of lipid peroxide, and superoxide dismutase (SOD) activity in the mucosa with prolongation of the ischemic time. Cholecystitis was produced in all animals by 45-min ischemia followed by 90-min reperfusion as the shortest ischemia and reperfusion times. In this model, prolongation of the ischemic time increased the area of mucosal inflammation horizontally with increases of the PLA2 activity, content of lipid peroxide, and SOD activity, whereas by prolonging the reperfusion time the inflammation area spread deeper vertically toward the serosal side with significant increase in the mucosal PLA2 activity, content of lipid peroxide, and SOD activity. These results revealed that ischemia-reperfusion plays an important role in the pathogenesis of acute acalculous cholecystitis, causing the generation of free radicals and the activation of membrane-bound PLA2.
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PMID:Experimental study on the pathogenesis of acute acalculous cholecystitis, with special reference to the roles of microcirculatory disturbances, free radicals and membrane-bound phospholipase A2. 175 95

Calpains and calpastatin in the brain of the rabbit were examined in experimental situations that could mimic some features of brain ischemia. Incubations of bisected brains in saline at 39 degrees C for 0.5, 1, or 1.5 h resulted in a decreased calpain I activity in the cytosol and in an increased hydrophobicity of cytosolic calpain II activity. Incubation of brain homogenates at different pH levels demonstrated an almost-complete transfer of calpains from the cytoplasmic compartment to the membranes when pH was lowered from 6 to 5. At pH values lower than 5, the total calpain activity (soluble plus membrane-bound) markedly decreased. No significant changes of calpastatin activity or its subcellular distribution was found following incubation of the homogenates at different pH levels.
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PMID:Changes in brain calpain activity as a result of in vitro ischemia and pH alterations. 191 Mar 62

The effect of repeated administration of allopurinol (50 mg.kg-1 48, 24, and 4 hours before analysis) on the activity of enzymes of degradation and resynthesis of adenine nucleotides was studied. The activity of xanthine dehydrogenase and xanthine oxidase was inhibited in the heart, liver and kidney and the activity of membrane-bound 5'-nucleotidase was particularly elevated in the heart and brain, suggesting that membrane transport processes may be affected. The increase in the activity of hypoxanthine guanine phosphoribosyl transferase in the liver is indicative of a potential mechanism of positive action of allopurinol upon restoring the purine nucleotide store. The authors present their hypothesis on the mechanism of allopurinol action upon the metabolism of adenine nucleotides. The suggested mechanisms might become operative in protecting tissues against ischemia and reperfusion induced damage.
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PMID:[Mechanisms of the effect of allopurinol on the metabolism of adenine nucleotides]. 191 98

The alpha 1-adrenergic receptor exists as at least two distinct subtypes, alpha 1a and alpha 1b. Based on hydrophobic exclusion studies and limited proteolysis of the cloned receptor, it appears to possess characteristics analogous to other membrane-bound receptors including seven membrane spanning domains, three extracellular, and three intracellular loops, with extensive glycosylation near the extracellular amino terminus. Although the receptor is coupled to phospholipase C in cardiac myocytes, with activation resulting in the production of inositol trisphosphate (IP3) and diacylglycerol, recent findings suggest that the receptor may also be linked to phospholipase A2, phospholipase D, and cyclic nucleotide phosphodiesterase. The alpha 1-adrenergic receptor has been shown to increase in response to myocardial ischemia in a number of different species and to mediate not only positive inotropic effects, but also to contribute substantially to arrhythmogenesis. The increase in alpha 1-adrenergic receptors can also occur in isolated adult ventricular myocytes in response to hypoxia, a mechanism which appears to be secondary to the sarcolemmal accumulation of long-chain acylcarnitines. This increase in alpha 1-adrenergic receptors in hypoxic myocytes is also linked to an enhanced increase in IP3 in response to receptor stimulation. These and other findings obtained in vivo during ischemia suggest that alpha 1-adrenergic mechanisms can become prominent in myocardium under pathophysiologic conditions in which a depressed contractile state exists and may therefore serve as a secondary inotropic system. However, the arrhythmogenic effects of stimulation of the alpha 1-adrenergic receptor in the ischemic heart in man may contribute substantially to arrhythmogenesis and, thereby, to the incidence of sudden cardiac death.
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PMID:Modulation of alpha-adrenergic receptors and their intracellular coupling in the ischemic heart. 196 2

Acute forebrain ischemia reduced protein kinase C (PKC) activity in the adult rat cortex, striatum and hippocampus by 60-70% after 20 min ischemia episodes, followed by 48 h of recirculation. Ischemia of 1 min, followed by recirculation, produced a less pronounced but significant decrease in PKC activity. The ischemia-induced decrease of PKC affected both the soluble and the membrane-bound kinase. Alterations of PKC predate neuronal death following ischemia.
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PMID:Reduction of protein kinase C activity in the adult rat brain following transient forebrain ischemia. 202 20

Free radicals may arise from a number of sources as a result of a variety of cellular mechanisms; they are generated under both normal and pathological circumstances. The xanthine oxidase pathway, the arachidonic acid pathway, invading leucocytes, catecholamine oxidation, and mitochondrial activity can all lead to the production of a variety of reactive oxygen intermediates including superoxide, hydrogen peroxide, and the hydroxyl radical. Whatever their source, free radicals can be extremely toxic to the cell and they are capable of causing major membrane injury by initiating lipid peroxidation or by altering the activity of membrane-bound enzyme systems which control ionic movement. The cell possesses highly efficient protective mechanisms, including antioxidants such as vitamins C and E and the enzymes superoxide dismutase and catalase, all of which are designed to prevent the occurrence of free radical-induced injury under normal conditions. However, during ischaemia and reperfusion, these protective mechanisms may be overwhelmed and severe free radical-mediated injury may occur. Ischaemia may prime the myocardium for free radical-induced injury. The great majority of the evidence that manipulation of free radicals may protect against such injury is, however, circumstantial.
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PMID:Free radicals and the heart. 202 51

Concurrent 23Na and 31P nuclear magnetic resonance spectroscopy has been employed to study the effects of ischemia upon the high-energy phosphagens and sodium ion concentration within the in vivo rat liver. High-energy phosphates in the form of ATP were depleted within 10 min of the onset of ischemia when measured by NMR. However, similar liver samples subjected to analytical biochemistry retained 27 +/- 12% of their ATP after a similar 10-min ischemic insult. Time-dependent 23Na NMR measurements, obtained in the presence of the shift reagent Dy(TTHA) to distinguish intracellular from extracellular sodium, revealed a rapid rise in the intracellular sodium when the liver was made ischemic. Intracellular and extracellular sodium concentrations approached equilibrium with an exponential time constant of 14.7 +/- 7 min. The initial rate of sodium influx was calculated to be 1.50 meq.l-1.min-1. The results indicate that the ischemic liver has a high passive sodium permeability and that NMR detectable 31P signals reflect the actual availability of cytosolic high-energy phosphates to enzymes, in this instance the membrane-bound [Na+, K+]-ATPase.
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PMID:Sodium flux and bioenergetics in the ischemic rat liver. 204 16

Ultrastructure changes in microvasculatures were observed in cortical areas of cerebral post-ischemia. Mitochondria distention and endothelial swelling are first damage form in microvasculatures. A large number of pinosomes, damage of continuity of endothelial and basement membrane, membrane-bound intra-luminal bodies, narrow of lumen, compression of perivessels edema were considered as injury basis of microcirculation disturbance and edema in cerebral post-ischemia.
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PMID:[Observation on ultrastructure of microvasculars in experimental cerebral ischemia]. 209 44


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