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:C0034063 (pulmonary edema)
10,665 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of cytochrome P-450 inducers on O2 toxicity were studied in mice. We first examined three cytochrome P-450 inducers, which differ by their specific tissue affinity: phenobarbital sodium (PB), essentially active in the liver, and 3-methylcholanthrene (3-MC) and beta-naphthoflavone (BNF), which are also active in the lung. Both BNF and 3-MC increased the survival rate and significantly decreased pulmonary edema (pulmonary water and wet-to-dry weight ratio) in C57BL/6J mice exposed to hyperoxia (O2 greater than or equal to 95%), whereas PB had no protective effect. In the second part of this study, we compared the action of BNF in two strains of mice. In one (C57BL/6J), cytochrome P-450 can be induced by aromatic hydrocarbons, whereas in the other (DBA/2J) cytochrome P-450 is not inducible by these compounds. Protection against O2 toxicity was assessed in terms of lethality and pulmonary edema and of lung lipid peroxidation (assessed by measuring malondialdehyde). BNF only protected against O2 toxicity in the inducible strain. This protective effect of BNF on O2 toxicity in C57BL/6J mice was associated mainly with a large increase in the components of the cytochrome P-450 system (cytochrome P-450 and cytochrome b5) in the lung. The activity of pulmonary superoxide dismutase was also slightly increased, but the enhancement was not statistically significant. In contrast, in DBA/2J mice neither the components of the cytochrome P-450 system nor the activity of superoxide dismutase showed any increase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Genetic differences in response to pulmonary cytochrome P-450 inducers and oxygen toxicity. 337 72

In 1969 McCord and Fridovich discovered superoxide dismutase, which converts the oxygen free radical O(2) (-) to hydrogen peroxide H(2)O(2). In the presence of excess O(2) (-), H(2)O(2) may then undergo further reduction to the highly toxic hydroxyl radical, OH(*). Since the description of this enzymatic process, there has been explosive growth in related biochemical research, which has now percolated through to clinical investigation. The hypoxanthine-xanthine oxidase system originally used as a radical production model has a close counterpart in the ischemia-reperfusion phenomenon purported to cause diseases of heart, brain and gastrointestinal tract, and free radicals are now known to have a critical role in postphagocytic bacterial killing. Prototypic deficiency diseases such as chronic granulomatous disease are now recognized. Some evidence indicates that excess states such as perhaps Batten's disease also occur, and environmental influences such as selenium and vitamin E deficiency may augment free radical levels. Many disorders including microvasculopathies, noncardiogenic pulmonary edema, glomerulopathies and radiation damage may owe part of their proximate pathogenesis to free radicals. Control of tissue free radical levels is now pharmacologically feasible and perhaps justified for specific diseases.
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PMID:The expanding role of oxygen free radicals in clinical medicine. 352 Oct 94

The effects of heparin (HEP), superoxide dismutase (SOD), and catalase (CAT) on the course of decompression sickness (DCS) were studied in anesthetized dogs (Canis familiaris). Animals were divided into 4 groups: a drug assay group (n = 4) received HEP + SOD or HEP + SOD + CAT but were not dived; a control group (n = 14) was dived without drug treatment; a HEPSOD group (n = 11) received HEP + SOD predive and postdive; and a HEPSODCAT group (n = 15) received HEP + SOD + CAT before diving. All dived animals were subjected to repetitive air dives to 10 ATA until pulmonary artery pressure at least doubled within 10 min postdive. Physiologic variables were measured for 3 h postdive or until death. Animals were not recompressed. More early deaths occurred in the HEPSOD (7/11) and HEPSODCAT (8/15) groups than in the control group (5/14). All dived animals developed pulmonary hypertension, systemic hypotension, hemoconcentration, acidosis, hypoxemia, and interstitial pulmonary edema postdive. Drug therapy did not alter these responses to decompression. We conclude that without recompression, treatment with either HEP + SOD OR HEP + SOD + CAT does not improve the outcome of severe DCS in this animal model.
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PMID:Failure of heparin, superoxide dismutase, and catalase to protect against decompression sickness. 362 44

Neutrophils are thought to increase alveolar permeability in many types of lung injury. To investigate the contribution of neutrophils to the development of permeability pulmonary edema, we have developed an in vitro cell culture system for studying alveolar epithelial permeability. Rat alveolar type II cells, cultured for 6 to 12 days on collagen-coated Millipore filters, form a morphologically and pharmacologically polarized epithelium. The filters are mounted between 2 lucite chambers, and electrical resistance (permeability to ions) and spontaneous potential difference across the monolayer are measured continually or at frequent intervals. When neutrophils and the phagocytosable particle, opsonized zymosan (but not neutrophils or opsonized zymosan alone), were added to the apical side, the potential difference and transepithelial resistance fell dramatically after 20 min, which indicates an increase in epithelial permeability. The increase in epithelial permeability was inhibited by serum alpha-1-protease inhibitor (250 micrograms/ml), methoxysuccinyl-Ala-Ala-Pro-Val-chloromethyl ketone (0.02 mM) (an elastase inhibitor), catalase (2,500 units/ml), and superoxide dismutase (330 units/ml). In experiments with a lower concentration of phagocytosing neutrophils, a slower rate of decrease in resistance occurred, and in 3 of 13 studies, there was a definite recovery of the resistance to initial values. This study demonstrated that phagocytosing but not resting neutrophils increase the permeability of the epithelial monolayers to ions and suggests that the increased permeability in this system is mediated in part by both neutral protease(s) and oxygen radicals.
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PMID:Epithelial permeability produced by phagocytosing neutrophils in vitro. 370 98

Oxygen-derived free radicals have been implicated as mediators of pulmonary microvascular injury. In the present study we addressed the question of the role of radicals formed in the lung parenchyma in development of pulmonary edema. Rat lungs were perfused with cell-free solutions with and without addition of colloid. Edema formation was measured as dry-wet weight ratios. Edema developed following 30 min perfusion with all perfusates except nonoxygenated Dextran-Tyrode. Addition of free radical scavengers, superoxide dismutase and catalase, reduced the edema formation with the various oxygenated perfusates. We conclude that in the isolated lung perfused with oxygenated solutions oxygen-derived radicals are formed that mediate increased permeability.
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PMID:Prevention of edema formation in the perfused lung preparation by oxygen radical scavengers. 404 55

Oxygen-induced lung toxicity was studied in newborn rats. Three-day-old rats were exposed to 85-90% oxygen or air for 48 h. The activity of pulmonary antioxidant defenses, as measured by the activity of superoxide dismutase (SOD), showed a progressive increase in activity. The activity of phosphatidic acid phosphatase (PAPase) showed a statistically significant decrease in the oxygen-poisoned lung. In the activity of pulmonary pyruvate kinase no significant change occurred. After two days of oxygen exposure (FiO2 085-0.9) marked histological changes appeared including an increased number of interstitial cells, atelectasis, pulmonary oedema, diminution of lamellar content, loose lamellar bodies and increasing tubular myelin in the alveolar space.
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PMID:Maturation of the fetal lung II. Effect of hyperoxia on phosphatidic acid phosphatase, pyruvate kinase and superoxide dismutase activity in the newborn rat lung. 609 33

Endotoxin treatment of adult rats before hyperoxic exposure significantly increases their survival rate in >95% O(2) (J. Clin. Invest.61: 269, 1978). In this study, we wished to determine: (a) whether endotoxin would protect against O(2) toxicity if it were administered after the animals were already in >95% O(2) for 12-48 h; and (b) the relationship between the endogenous antioxidant enzymes of the lung and the protective effect of endotoxin treatment. Our results showed that adult rats given a single 500 mug/kg dose of endotoxin up to 36 h after the onset of O(2) exposure had significantly increased survival rates and decreased lung fluid accumulation compared to untreated animals in O(2) (P < 0.05). (Survival, 16/49 [untreated rats]; 18/20 [endotoxin at 12 h after the start of O(2) exposure]; 25/26 [endotoxin-24 h]; 15/20 [endotoxin-36 h].)Endotoxin-treated animals in O(2) showed increases in pulmonary superoxide dismutase, catalase, and glutathione peroxidase activities before the usual time of onset of measurable pulmonary edema in untreated animals in O(2). When diethyldithiocarbamate was used to block the superoxide dismutase enzyme rise in the endotoxin-treated rats in O(2), the protective action of endotoxin against pulmonary O(2) toxicity was nullified. In endotoxin-treated, O(2)-exposed mice, there were no lung antioxidant enzyme increases, and no protective effect from O(2) toxicity was achieved. We conclude that, in the rat, a single dose of endotoxin given even 36 h after the onset of hyperoxic exposure results in marked protection against O(2)-induced lung damage; and the increased lung antioxidant enzyme activity in the endotoxin-treated rats appears to be an essential component of this protective action.
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PMID:Potection from oxygen toxicity with endotoxin. Role of the endogenous antioxidant enzymes of the lung. 624 6

Endotoxin treatment in normal rats has a marked protective effect against O2 toxicity (J. Appl. Physiol.: Respirat. Environ. Exercise Physiol. 47: 577-581, 1979 and 51: 577-583, 1981), and endotoxin's protective action is associated with stimulation of the lung's enzymatic antioxidant defense system (superoxide dismutase, catalase, glutathione peroxidase, and glucose-6-phosphate dehydrogenase). Vitamin E-deficient animals are especially sensitive to hyperoxidant stresses, including pulmonary O2 toxicity. In these studies we tested whether endotoxin could reverse the increased susceptibility of vitamin E-deficient rats to hyperoxic challenge. We found that untreated vitamin E-deficient rats do succumb more readily to O2 toxicity [0/11 alive at 72 h in greater than 95% O2, lethal time for 50% of the animals (LT50) = 50 h] than rats fed a regular diet (4/14 alive, LT50 = 69 h). In contrast, 15 of 16 vitamin E-deficient rats treated with endotoxin survived the same O2 exposures (P less than 0.001) and showed significantly reduced pulmonary edema compared with the other groups. The endotoxin-treated vitamin E-deficient group was also the only one to demonstrate significant elevations of all the antioxidant enzymes during O2 exposure, suggesting that the antioxidant enzyme defenses of the lung have a more primary and important role in prevention of O2-induced lung injury than the lipid-associated antioxidant, vitamin E.
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PMID:Endotoxin treatment protects vitamin E-deficient rats from pulmonary O2 toxicity. 638 80

This article is a review of the current literature concerning the possible involvement of oxygen radicals in the development of pulmonary edema. The article focuses on changes in capillary endothelium caused by many different imposed experimental conditions that may be related to the generation of O2, OH. or H2O2. Data from our laboratory show that scavengers such as superoxide dismutase, dimethylsulfoxide, and catalase as well as leukocyte depletion provide partial protection to the very caustic alpha-naphthylthiourea. The literature concerning the possible involvement of leukocyte or tissue generation of oxygen radicals in the various forms of pulmonary edema is combined into a simple model that may explain why pathologic tissues show variable responses to compounds that should either scavenge the oxygen radicals or prevent leukocyte involvement.
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PMID:The effects of oxygen radicals on pulmonary edema formation. 641 81

The antioxidant enzyme superoxide dismutase (SOD) found in the cytosol of eucaryotic cells and the plasma protein ceruloplasmin are copper containing proteins though to be important in providing protection from oxygen toxicity. To investigate the hypothesis that copper deficiency in the rat could result in decreased lung SOD activity and plasma ceruloplasmin concentration resulting in increased susceptibility to O2 lung damage, we performed a series of experiments exposing copper-deficient and control rats to normobaric and hyperbaric hyperoxia. Lung SOD activity in the copper-deficient rats was found to be 56% of control and ceruloplasmin content was 6% of control. The copper-deficient rats exhibited increased mortality and enhanced pulmonary toxicity as evidenced by increased pathologic damage and lung edema during the normobaric exposure to 85% O2. Copper-deficient animals also showed increased susceptibility to a hyperbaric exposure of 4 ata of 100% O2 with a decreased time of survival. The copper-deficient rat represents a new model for the study of oxidant injury.
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PMID:Enhanced pulmonary toxicity in copper-deficient rats exposed to hyperoxia. 672 91


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