Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0085383 (hypocapnia)
1,697 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Superoxide production was measured as the superoxide dismutase (SOD)-inhibitable portion of nitro blue tetrazolium (NBT) reduction after cerebral ischemia-reperfusion in anesthetized cats equipped with cranial windows. Significant superoxide production was found in the early reperfusion period and continued for more than 1 h after ischemia. Superoxide was not detected in control animals not subjected to ischemia, during ischemia, and at 120 min of reperfusion. After ischemia, the vasoconstrictor response to arterial hypocapnia was reduced. This effect was prevented by pretreatment with SOD plus catalase or by deferoxamine. The response to topical acetylcholine was converted to vasoconstriction after ischemia. The normal vasodilator response reappeared spontaneously at 120 min of reperfusion. The vasodilator response to acetylcholine was preserved in animals pretreated with SOD plus catalase. Blood-brain barrier permeability to labeled albumin and horseradish peroxidase was increased after ischemia. These effects were minimized by pretreatment with SOD and catalase. We conclude that superoxide generation occurs during reperfusion after cerebral ischemia for a fairly long period and that superoxide and its derivatives are responsible at least in part for the vasodilation and the abnormal reactivity as well as for the increase in blood-brain barrier permeability to macromolecules seen after ischemia. Furthermore, the findings suggest that the agent responsible for the vascular abnormalities is hydroxyl radical generated via the iron-catalyzed Haber-Weiss reaction.
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PMID:Oxygen radicals in cerebral ischemia. 133 9

A 4 hr intravenous infusion of Escherichia coli endotoxin in a total dose of 100 mg/kg produced significant morphological and functional pulmonary alterations in pentobarbitone anesthetized rats. Lung vascular permeability index was increased from 2.11 +/- 0.34 in normal rats to 4.82 +/- 0.65 in untreated endotoxemic rats. Treatment of endotoxemic rats with recombinant human superoxide dismutase (r-HSOD) in doses of 0.1, 0.215, and 0.464 mg/kg.min i.v., infused concomitantly with endotoxin, dose-dependently reduced the permeability index to 3.28 +/- 0.96, 2.83 +/- 0.55 (P less than 0.05), and 2.16 +/- 0.65 (P less than 0.05). The wet lung weight was 523 +/- 15 and 664 +/- 46 mg/100 g bwt in normal and in untreated endotoxemic rats, respectively. r-HSOD dose-dependently inhibited the endotoxin-induced increase in wet lung weight to 617 +/- 40, 577 +/- 31, and 559 +/- 39 (P less than 0.05) mg/100 g bwt. r-HSOD (0.464 mg/kg.min) did not affect permeability index and wet lung weight in normal, nonintoxicated rats. Endotoxin infusion produced a significant increase in respiratory rate (max. +69%) and blood gas alterations, indicating a hyperventilatory hypocapnia in endotoxemic control rats. Infusion of r-HSOD (0.464 mg/kg.min) significantly inhibited the endotoxin-induced tachypnoe (max. +13%) and blunted the alterations in arterial hydrogen carbonate content and carbon dioxide tension. In conclusion, infusion of r-HSOD dose-dependently and significantly inhibited pulmonary edema formation and hyperventilatory dyspnoe in endotoxemic rats.
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PMID:Effects of recombinant human superoxide dismutase on increased lung vascular permeability and respiratory disorder in endotoxemic rats. 217 95

The appearance of superoxide anion radicals in cerebral extracellular space during and after experimental fluid-percussion brain injury was investigated in anesthetized cats equipped with cranial windows. Superoxide was detected by demonstrating the presence of superoxide dismutase (SOD)-inhibitable reduction of nitroblue tetrazolium (NBT). The SOD-inhibitable rate of reduction of NBT was 3.52 +/- 0.72 nM/min/sq cm during brain injury and 4.11 +/- 0.74 nM/min/sq cm 1 hour after injury. No significant superoxide production was detected in control animals. The sustained arteriolar dilation and reduced responsiveness to the vasoconstrictor effects of arterial hypocapnia observed 30 minutes after brain injury were eliminated by after-treatment with topical SOD (60 U/ml) and catalase (40 U/ml). The results show that experimental brain injury causes the generation and appearance in extracellular fluid space of superoxide. Superoxide production continues for at least 1 hour following injury. The sustained dilation and abnormal responsiveness of cerebral arterioles after injury are due to the continued generation of superoxide and other radicals derived from it. These functional changes can be reversed by after-treatment with appropriate scavenging agents.
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PMID:Superoxide production in experimental brain injury. 300 36

Xanthine oxidase and xanthine, a combination that produces hydrogen peroxide and superoxide anion radical, applied topically in anesthetized cats equipped with cranial windows caused arteriolar dilation during application, sustained dilation 1 h after washout, and reduced reactivity to the vasoconstrictive effects of arterial hypocapnia, discrete lesions of the endothelium, and morphological abnormalities of the vascular smooth muscle by electron microscopy. Similar effects were seen in small, but not in large, arterioles during topical application of hydrogen peroxide or hydrogen peroxide plus ferrous sulfate, a combination that produces free hydroxyl radical. The functional changes caused by xanthine oxidase plus xanthine were inhibited completely by superoxide dismutase plus catalase. Superoxide dismutase or catalase, each by itself, eliminated the residual effects seen after washout and reduced the dilation during application of xanthine oxidase. The results show that superoxide anion radical and hydrogen peroxide produce reversible arteriolar dilation and that consistent vascular damage is produced in the presence of both superoxide anion radical and hydrogen peroxide.
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PMID:Effects of oxygen radicals on cerebral arterioles. 391 62

The effects of topical application of agents which produce oxygen radicals on cerebral arterioles were studied in anesthetized cats. Xanthine oxidase plus xanthine, which produced superoxide anion radical, hydrogen peroxide, and hydrogen peroxide plus ferrous sulfate, which produced the free hydroxyl radical, induced sustained dilation, reduced responsiveness to the vasoconstrictor effect of hypocapnia, and destructive lesions of the endothelium and of the vascular smooth muscle. Similar effects were produced by arachidonate, 15-HPETE, and PGG2. The effect of arachidonate was inhibited by mannitol, a free hydroxyl radical scavenger, the effect of PGG2 was inhibited by SOD, the effect of 15-HPETE was inhibited by either catalase or SOD. These results suggest that these cerebral vascular abnormalities were produced by a single destructive free radical, probably the hydroxyl free radical, generated via interaction of superoxide and hydrogen peroxide. Cerebral vascular abnormalities similar to those produced by oxygen radicals were also seen after experimental concussive brain injury or after acute hypertension. After brain injury, activation of phospholipase C and increased brain prostaglandin concentration were demonstrated. The vascular effects of brain injury and acute hypertension were inhibited by free radical scavengers. The results suggest that, in these conditions, vascular damage is induced by oxygen radicals generated from arachidonate in association with increased prostaglandin synthesis.
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PMID:Oxygen radicals and vascular damage. 640 99

Topical application of sodium arachidonate (50-200 micrograms/ml) or bradykinin (0.1-10 micrograms/ml) on the brain surface of anesthetized cats caused dose-dependent cerebral arteriolar dilation. This dilation was blocked by 67-100% in the presence of superoxide dismutase and catalase. These enzymes did not affect the changes in arteriolar diameter caused by alterations in arterial blood PCO2, or the arteriolar dilation from topical acetylcholine. Enzymes inactivated by heat had no effect on the vasodilation from arachidonate or bradykinin. Superoxide dismutase alone or catalase alone reduced the dilation during application of 200 micrograms/ml of arachidonate for 15 minutes; they also completely prevented the residual dilation seen 1 hour after washout, as well as the reduction in the vasoconstrictive effects of arterial hypocapnia observed at this time. The results show that superoxide anion radical and hydrogen peroxide, or radicals derived from them, such as the hydroxyl radical, are mediators of the cerebral arteriolar dilation from sodium arachidonate or bradykinin. These radicals are not the endothelium-derived relaxant factor released by acetylcholine. The presence of both superoxide anion radical and hydrogen peroxide is required for the production of the vascular damage seen during prolonged application of high concentrations of sodium arachidonate.
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PMID:Oxygen radicals mediate the cerebral arteriolar dilation from arachidonate and bradykinin in cats. 643 60

The effects of topical application of 15-hydroperoxy-eicosatetraenoic acid (15-HPETE, 200 micrograms/ml) on cerebral arterioles were studied in anesthetized cats equipped with cranial windows. 15-HPETE induced arteriolar dilation during application, sustained dilation 1 h after washout, and reduced responsiveness to the vasoconstrictive effects of hypocapnia. Electron microscopy of cerebral arterioles disclosed discrete endothelial lesions and focal morphological abnormalities of the vascular smooth muscle. Topical application of superoxide dismutase or catalase or the combination of the two inhibited the functional and morphological abnormalities induced by 15-HPETE. The results show that the vascular effects of 15-HPETE are mediated by superoxide anion radical and hydrogen peroxide or by other radicals derived from them, such as the hydroxyl radical. The results, together with earlier findings, support the view that the oxygen radicals responsible for these cerebral vascular effects are generated via the prostaglandin hydroperoxidase reaction.
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PMID:Effects of 15-hydroperoxy-eicosatetraenoic acid (15-HPETE) on cerebral arterioles of cats. 643 43

We studied the role of prostaglandins and free radicals in the induction of the functional and morphological pial arteriolar abnormalities produced by concussive brain injury. Anesthetized cats equipped with a cranial window for the observation of the pial microcirculation were subjected to concussive brain injury using a fluid-percussion device following administration of cyclooxygenase inhibitors (indomethacin or AHR-5850) or the vehicle for the solution of these agents (NaCl or Na2CO3 solution). Pial arterioles from vehicle-treated animals displayed sustained dilation, reduced responsiveness to the vasoconstrictor effect of arterial hypocapnia, and a high density of endothelial lesions. Animals pretreated with cyclooxygenase inhibitors showed less pronounced vasodilation, normal responsiveness to hypocapnia, and a significantly reduced number of lesions. The vasodilation and reduced responsiveness to the vasoconstrictor effects of hypocapnia after brain injury also were inhibited by topical application of free radical scavengers (nitroblue tetrazolium, superoxide dismutase, or mannitol). The vessels from cats pretreated with free radical scavengers also had a lower density of endothelial lesions than controls. The results support the view that the immediate cause of cerebral arteriolar damage in concussive brain injury is the generation of free oxygen radicals associated with increased prostaglandin synthesis.
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PMID:Inhibition by free radical scavengers and by cyclooxygenase inhibitors of pial arteriolar abnormalities from concussive brain injury in cats. 677 69

Acute severe hypertension induced by intravenous norepinephrine or angiotensin in anesthetized cats equipped with a cranial window caused prolonged arteriolar vasodilation associated with reduced responsiveness to arterial hypercapnia or hypocapnia and passive response to changes in arterial blood pressure. Scanning and transmission electron microscopy of such pial arterioles showed discrete destructive endothelial lesions the density of which correlated with the degree of vasodilation. Abnormalities of the vascular smooth muscle were seen in all dilated arterioles but affected only a small number of smooth muscle cells. The oxygen consumption of pial arterioles from cats subjected to hypertension was significantly reduced in comparison to that of vessels from normal animals. The arteriolar abnormalities induced by hypertension were inhibited by pretreatment with inhibitors of cyclooxygenase (indomethacin or AHR-5850) or by topical application on the brain surface of scavengers of free oxygen radicals (mannitol or superoxide dismutase). The results suggest that the mechanism of the arteriolar abnormalities from acute hypertension involves a sudden increase in prostaglandin synthesis that leads to generation of free oxygen radicals.
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PMID:Mechanism of cerebral arteriolar abnormalities after acute hypertension. 722 3

Amyloid-beta (A beta)-peptides are involved in the pathophysiology of Alzheimer's dementia. We studied the effects of A beta on selected constrictor responses of cerebral circulation. Mice were anesthetized (by using urethane-chloralose) and equipped with a cranial window. Arterial pressure and blood gases were monitored and controlled. Cerebral blood flow (CBF) was monitored by a laser Doppler probe. Topical superfusion with A beta 1-40 (0.1-10 microM), but not with the reverse peptide A beta 40-1, reduced resting CBF (-29 +/- 4% at 5 microM; P < 0.05) and augmented the reduction in CBF produced by the thromboxane analog U-46619 (+45 +/- 3% at 5 microM; P < 0.05). A beta 1-40 or A beta 1-42 did not affect the reduction in CBF produced by hypocapnia. The reduction in resting CBF and the enhancement of vasoconstriction were reversed by treatment with the free radical scavengers superoxide dismutase or manganic(I-II)meso-tetrakis(4-benzoic acid)porphyrin. Substitution of the methionine residue in position 35 with norleucine, a mutation that abolishes the ability of A beta to produce free radicals, abolished its vascular effects. Nanomolar concentrations of A beta 1-40 constricted isolated pressurized middle cerebral artery segments with intrinsic tone (-16 +/- 3% at 100 nM; P < 0.05). We conclude that A beta acts directly on cerebral arteries to produce vasoconstriction and to enhance selected constrictor responses. The evidence supports the idea that A beta-induced production of reactive oxygen species plays a role in this effect. The vascular actions of A beta may contribute to the deleterious effects resulting from accumulation of this peptide in Alzheimer's dementia.
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PMID:A beta-peptides enhance vasoconstriction in cerebral circulation. 1170 7


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