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:C0011570 (depression)
172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Renal prostaglandins have been implicated in the regulation of blood pressure. We have therefore compared prostaglandin metabolism in the kidneys of spontaneously hypertensive rats (SHR's) of the Aoki-Okamoto strain and normotensive Wistar-Kyoto (WKY) controls. The microsomal fraction of the renal medulla contained most of the prostaglandin synthetase activity in both groups; SHR's had significantly higher enzymatic activity than their normotensive controls at age 10 wk and thereafter; furthermore, synthetase activity in SHR's increased with age. Two forms of 15-hydroxyprostaglandin dehydrogenases were demonstrated: an NAD+-dependent form which was localized mainly in the cortex and an NADP+-dependent form, higher in the medulla. The activities of these enzymes were lower in the hypertensive animals at all ages studied; this depression was more pronounced for the NAD+-dependent dehydrogenase. The results indicate that, in hypertension, renal prostaglandin metabolism is altered so that enhanced synthesis is accompanied by decreased degradation rate.
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PMID:Prostaglandin metabolism in the kidneys of spontaneously hypertensive rats. 1 24

Having studied anaesthetic drug interactions in rats, we report the effects of halogenated anaesthetics on the liver glutathione levels and histology, as well as the results of the enhancement of these effects by microsomal enzyme induction. The anaesthetic agents studied included methoxyflurane, halothane, ethrane, chloroform and fluroxene. While exposure of rats to methoxyflurane, helothane and ethrane produced no significant changes in hepatic glutathione levels, or in liver histology, exposure to chloroform and fluroxene produced marked depression of liver glutathione, especially after microsomal enzyme induction. Furthermore, rats exposed to thses agents after enzyme induction developed gross centrilobular necrosis and died. It is suggested that the study of the effects of any new anaesthetic agent on liver glutathione levels could be a valuable screening test of its hepatotoxic potential, before its clinical trial.
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PMID:The effect of exposure to halogenated anaesthetics on liver glutathione levels in rats. An index of hepatotoxicity. 3 73

Weanling male Sprague-Dawley rats were fed either a nutritionally complete synthetic diet (Diet 1) or a diet marginally deficient in choline and methionine, and lacking folacin (lipotrope deficient, Diet 2) to determine the role of hepatic mixed-function oxidase metabolism of aflatoxin B1 (AFB1) in the Diet 2-induced enhancement of AFB1 hepatocarcinogenesis previously reported. Hepatic microsomal mixed-function oxidase activities, as assayed by ethylmorphine N-demethylation, ethoxycoumarin O-dealkylation, cytochrome c reduction, AFB1 metabolism, and cytochrome P-450 content, were all depressed by Diet 2. Furthermore, the proportion of an i.p. dose of AFB (1 mg/kg) that became covalently bonded to DNA and RNA was similarly reduced when measured 6 hr after administration. The formation of AFB1-protein adducts was not influenced by dietary treatment. The depression of DNA and RNA adduct formation in the Diet 2 animals was probably related to the lower mixed-function oxidase activities and not to an alteration of glutathione levels, which remained unchanged by dietary treatment. These results suggest that the marginally lipotrope-deficient diet does not enhance tumor formation through an increased microsomal activation of AFB1. Alternative hypotheses without data are suggested.
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PMID:Dietary lipotropes, hepatic microsomal mixed-function oxidase activities, and in vivo covalent binding of aflatoxin B1 in rats. 8 78

The molecular weight (MW) and dose dependency of several of the toxic effects and antitumor and antiviral activities of a new series of five maleic anhydride-divinyl ether copolymers (MVE) were established. Each polyanion preparation was relatively homogeneous and exhibited a narrow MW range, from 12,500 (MVE-1) to greater than 52,000 (MVE-5). All of the polyanions were effective as adjuvants to surgery against the metastatic Lewis lung carcinoma, and also exhibited marked antitumor activity against the P815 mastocytoma. MVE-1 retained antitumor activity while losing considerable antiviral activity. This polyanion also exhibited the least toxicity with regard to criteria such as sensitization to the lethal effects of endotoxin, inhibition of reticuloendothelial function, and depression of the microsomal mixed functional oxidase system. The MVE-4 (MW, 32,000) and MVE-5 (MW, 52,600) polyanions exhibited potent antitumor and antiviral activity, but also demonstrated dose-dependent toxic effects.
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PMID:Relationship of molecular weight to antiviral and antitumor activities and toxic effects of maleic anhydride-divinyl ether (MVE) polyanions. 10 18

To examine the role of changes in calcium transport by subcellular particles in the pathogenesis of contractile failure due to oxygen lack, both mitochondrial and microsomal fractions were obtained from the isolated hypoxic rat hearts and their calcium binding and uptake abilities were determined by the Millipore filtration technique. The contractile force decreased by about 40, 60 and 70% of the control within 5, 10 and 30 min respectively, of perfusing the heart with hypoxic medium containing glucose. In hearts perfused for 10 min with hypoxic medium containing glucose, calcium binding and uptake by the microsomal fraction decreased significantly. However, mitochondrial calcium binding, but not uptake, decreased significantly on perfusing the hearts with hypoxic medium containing glucose for 20 to 30 min when the microsomal calcium transport was markedly depressed. Reduction in contractile force, calcium binding and uptake by the microsomal fraction as well as calcium binding by mitochondria of hearts made hypoxic for 30 min recovered towards normal upon reperfusion with control medium for 15 min. On the other hand, omitting glucose from the hypoxic medium significantly decreased calcium binding by mitochondrial and microsomal fractions within 10 min of perfusion in comparison to the control and accelerated the effects of hypoxia upon contractile force and microsomal calcium uptake. In contrast to the hypoxic hearts, the mitochondrial calcium uptake decreased significantly and the magnitude of depression in the microsomal calcium binding was appreciably greater in hearts made to fail to a comparable degree upon perfusion with substrate-free medium. The observed defects in calcium transporting properties of microsomal and mitochondrial membranes appear secondary to the contactile failure in hypoxic hearts.
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PMID:Excitation-contraction coupling in heart. XIX. Effect of hypoxia on calcium transport by subcellular particles in the isolated perfused rat heart. 13 Sep 66

We studied hearts from sham-operated and uninfected catheterized rabbits as well as from rabbits at early and late stages of cardiomyopathy and failure after 3 and 6 days of infection with Streptococcus viridans. No ultrastructural abnormalities or biochemical changes in membrane and myofibrillar activities were seen in 3-day uninfected hearts. In 6-day uninfected hearts there were decreased sarcolemmal M2+ ATPase, Na+-K+ ATPase, adenylate cyclase and calcium binding, microsomal calcium binding and uptake, and myofibrillar Ca2+-stimulated ATPase as well as increased mitochondrial calcium uptake. Slight ultrastructural changes also were apparent in 6-day uninfected hearts. At both early and late stages of infective cardiomyopathy and failure there were varying degrees of depression in sarcolemmal Mg2+ ATPase, Na+-K+ ATPase, adenylate cyclase and calcium binding, microsomal calcium binding, calcium uptake and basal ATPase, and myofibrillar Ca2+-stimulated ATPase activities. However, sarcolemmal Ca2+ ATPase and myofibrillar Mg2+ ATPase activities were decreased only after 6 days of infection. Mitochondrial calcium binding and uptake were increased in early stages but decreased in late stages of disease. Furthermore in infected hearts there were defects in mitrochondrial respiration and phosphorylation. Generalized severe myocardial cell damage involving myofibrils, mitochondria, and the sarcotubular system was seen only in late stages of infection. The results demonstrate impairment of different membrane and contractile protein functions as well as ultrastructural abnormalities in bacterial cardiomyopathic hearts which were absent or of lesser magnitude in hearts with only hypertrophy. The findings reported here suggest to use that there is an association between heart failure and changes in function of cellular components during bacterial infective cardiomyopathy.
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PMID:Abnormalities in heart membranes and myofibrils during bacterial infective cardiomyopathy in the rabbit. 13 11

The effects of ether, chloroform, and halothane on calcium accumulation and ATPase activity of rat heart microsomes and mitochondria as well as on myofibrillar ATPase activity were investigated. Chloroform and halothane depressed microsomal and mitochondrial calcium uptake and binding in a parallel fashion. Ether decreased microsomal calcium binding and mitochondrial calcium uptake to varying degrees, while mitochondrial calcium binding was slightly enhanced. Whereas ether had no effect, chloroform depressed microsomal and mitochondrial total APTase activities and halothane decreased microsomsl ATPase and slightly stimulated mitochondrial total ATPase activities. Halothane was found to depress myofibrillar Mg2+-ATPase and ether was capable of decreasing myofibrillar Ca2+-ATPase. Chloroform was seen to inhibit both myofibrillar enzymes. These results suggest that the cardiodepressant actions of volatile anesthetic agents may be due to alterations in the calcium accumulating abilities of microsomal and mitochondrial membranes while direct myofibrillar effects may contribute to the depression seen with relatively higher concentrations of anesthetics.
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PMID:Subcellular effects of some anesthetic agents on rat myocardium. 15 65

A progressive depression in the in vitro hepatic microsomal enzyme metabolism of drug substrates, during pregnancy in the Wistar rat, was measured against various parameters. This depression was greatest with aniline para-hydroxylation and least with p-nitrobenzoic acid reduction. The depressed metabolism, which correlated with prolonged in vivo hexobarbital sleeping times, was paralleled by falls in hepatic microsomal cytochrome P-450 levels. There was a rapid reversal of this depression just before delivery, but these changes did not appear to be controlled by progesterone levels. The suggestion is advanced that the lower levels of hepatic microsomal enzyme activity might reflect a biological control mechanism to ensure the elevated levels of progesterone required to maintain the pregnant state. The relationship between changes in liver weight and enzyme activity was also examined as a possible explanation of the observed depression in drug metabolism during pregnancy.
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PMID:Hepatic microsomal metabolism of drugs during pregnancy in the rat. 24 12

Liver enlargement is frequently reported in studies on the short-term toxicity of chemicals. In many such studies no histological evidence of damage is present but biochemically there is often an increased microsomal enzyme activity (MEA) which is interpreted to represent a type of work hypertrophy. In a few instances, the MEA in the enlarged liver is either normal or less than normal. In such instances histochemical evidence of liver damage (depression of G-6-Pase and autophagy) is found. A compound which produced the latter changes is Ponceau MX. When administered for up to 21 months at a dose-level which produces biochemical and histochemical evidence of liver injury, a series of changes were observed consisting of progerssive diminution of MEA, areas of glycogen accumulation and centrilobular fatty change and these were followed first by nodular hyperplasia and then by frank carcinoma. The protective effect of increased MEA in carcinogenesis was shown by the reduction in tumour incidence on the administration of phenobarbitone simultaneously with acetylaminofluorene, 4-dimethyl aminoazo benzene and diethylnitrosamine. But no such protective effect is seen if the phenobarbitone is administered after treatment with these carcinogens. In fact the number of tumours is enhanced presumably due to preferential stimulation of the growth of malignant cells.
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PMID:Liver growth and tumorigenesis in rats. 28 28

The activity of microsomal drug-metabolizing enzymes is altered by several pathological or abnormal physiological states, such as changes in nutritional status, liver, heart or kidney diseases, hormonal disturbances, pregnancy, tumour-bearing state, adjuvant arthritis, changes in reticuloendothelial system and environmental factors (stress, irradiation, heavy metals). The activities of other metabolic pathways, such as glucuronidation, sulphate conjugation, acetylation and alcohol oxidation are generally affected to lesser extents. Rats are most commonly used in drug metabolism studies, and it is important to know that the activity of most of the microsomal drug-metabolizing enzymes is higher in males than in females through androgen action which is readily impaire drug-metabolizing enzymes in male rats are thus manifested by two mechanisms; one is by impairment of androgen action and the other is by depression of the basic enzymic activity. Therefore, those effects of pathological states, observed only in male rats but not in females, are generally not seen in other species of animals, including man. The effects of starvation, hyperthyroidism, adrenal insufficiency, diabetes and morphine administration are cases where changes in metabolism are due solely to impairment of androgen action. In other pathological cases, those drug-metabolizing enzymes showing sex differences are depressed more markedly in male rats than those showing no clear sex difference. The author therefore recommends the use of female rats in the evaluation of the effects of pathological states on hepatic microsomal drug-metabolizing enzymes. Generally, changes in activity of the hepatic enzymes reflect closely the changes in the rates of drug metabolism in vivo. However, the protein-binding of drugs, hepatic blood flow and renal function are also known to affect the rate of drug metabolism and excretion in vivo, and therefore changes of these factors in pathological states should also be taken into consideration.
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PMID:Drug metabolism under pathological and abnormal physiological states in animals and man. 32 97


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