UMLS:C0011570 - FACTA Search

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

In liver homogenates of rats fed a low-level diet of Wheat-Rice- or Miyazaki-pattern amino acid mixture, some enzymes such as glucose-6-phosphate dehydrogenase, ATP citrate lyase, fatty acid-synthesizing enzymes, malic enzyme and L-alpha-glycerophosphate dehydrogenase, whose activities are indicators of lipogenesis have been determined from the viewpoint of the mechanisms producing fatty liver. In the early experimental period, malic enzyme activity increased more markedly in rats fed low amino acid mixture diets than in the control group, and L-alpha-glycerophosphate dehydrogenase activity in the liver increased slightly. Conversely, ATP citrate lyase and fatty acid-synthesizing enzyme activities remained almost at control levels, or glucose-6-phosphate dehydrogenase activity tended to decrease. These results suggest that some other associated factors, such as depression of the lipid transfer system in the liver rather than accelerated lipogenesis itself, may be the main cause of the fatty livers produced under these nutritional conditions.
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PMID:Some lipogenic enzyme activities in rat livers in which an excessive fat accumulation occurred due to feeding low-level amino acid mixture diets. 50 52

Dietary linoleate and linolenate were investigated for their ability to specifically inhibit liver and adipose tissue lipogenesis in meal-fed (access to food 900-1,200 hr), essential fatty acid (EFA) adequate rats. Supplementing a high carbohydrate diet containing 2.5% safflower oil with 3% palmitate 16:0, oleate 18:1, or linoleate 18:2 did not affect in vivo liver or adipose tissue fatty acid synthesis. However, 18:2 addition to the basal diet did result in a significant (P less than 0.05) decline of liver fatty acid synthetase (FAS) and glucose-6-phosphate dehydrogenase (G6PD) activities. When the safflower oil content of the basal diet was reduced to 1%, the addition of 3% 18:2 or linolenate 18:3 significantly (P less than 0.05) depressed hepatic FAS, G6PD, and in vivo fatty acid synthesis by 50%. Addition of 18:1 caused no depression in hepatic FAS activity but did result in a significant (P less than 0.05) decline in liver G6PD activity and fatty acid synthesis which was intermediate between basal and basal +18:2- or +18:3-fed animals. Adipose tissue rates of lipogenesis were completely unaffected by dietary fatty acid supplementation. Similarly, the addition of 3 or 5% 18:3 to a basal diet for only one meal resulted in no change in lipogenesis relative to that in animals fed the basal diet. The data indicate that, like rats fed EFA-deficient diets, dietary 18:2 and 18:3 exert a specific capacity to depress rat liver FAS and G6PD activities and rate of fatty acid synthesis.
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PMID:Specific inhibition of hepatic fatty acid synthesis exerted by dietary linoleate and linolenate in essential fatty acid adequate rats. 93 24

The responses of hepatic and adipose tissue malic enzyme (ME), citrate cleavage enzyme (CCE), glucose-6-phosphate dehydrogenase (G6PD), and glyceride synthetase (GS) to exercise training and exhaustive exercies and the potential of a high fat or high carbohydrate diet to modify these responses were studied in male Carworth rats. Characteristic elevation and depression of ME, CCE, and G6PD were decreased in skeletal muscle, liver, and adipose tissues of high carbohydrate-fed rats. A significant two-way diet-training interaction was indicated for hepatic ME and G6PD. This interaction resulted from an apparent training modulation of ME and C6PD responses to the high fat and high carbohydrate diets. Adipose tissue G6PD was significantly decreased by training. Exhaustive exercise performed immediately prior to sacrifice did not significantly alter ME or CCE activities in either liver or adipose tissues, but decreased adipose tissue G6PD in untrained rats. Exhaustion was also associated with decreased GS activity in muscle and liver. Physical training was associated with a significant increase in GS in muscle and adipose tissues. In contrast to glyceride synthesis, no increase in adipose tissue lipogenic potential was noted in response to training, indicating that the physically trianed rat may have an enhanced ability to store but not synthesize fatty acids.
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PMID:Lipogenesis and glyceride synthesis in the rat: response to diet and exercise. 111 99

Damage to the lung may be caused by chemicals that gain access to the alveolar zone by inhalation or via the pulmonary circulation. Several agents toxic to the lung have recently been found to bind covalently to pulmonary macromolecules or to disrupt certain metabolic reactions. However, it has also been observed that extensive chemical lung injury is not necessarily preceded by a depression of pulmonary metabolic reactions. One possible explanation for this might be that biochemical changes due to cell death are often masked and/or compensated for by changes associated with lung tissue repair. Substantial cell proliferation as a response to toxic lung damage is a common phenomenon in lung pathology. This makes it necessary to develop models that permit analysis of the biochemical events triggering and accompanying cell growth in lung. We have recently examined some aspects of cell proliferation in mouse lung. Intraperitoneal injection of the antioxidant butylated hydroxytoluene (BHT) produces within 3-5 days extensive hypertrophy, hyperplasia, and general disorganization of the cellular components of the lung. Total lung weight and total DNA per lung almost double within this time and are accompanied by proportional increases in protein and lipids. RNA accumulates at a faster rate than DNA. The changes in lung composition are accompanied by dose-dependent increases in the in vivo incorporation of thymidine into DNA and of leucine into protein. The activities of several enzymes (thymidine kinase, DNA polymerase, uridine kinase, glucose-6-phosphate dehydrogenase, and 5'-nucleotidase) increase substantially after BHT. Administration of BHT to mice seems to offer a convenient tool to study cell growth in the lungs of mice.
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PMID:Biochemical pathology of lung damage produced by chemicals. 124 36

Effect of organophosphorus insecticide, phosphomidon (250 and 500 ppm) on human erythrocyte and plasma were studied in vitro to get insight into the cellular antioxidant defence mechanism and malondialdehyde formation. The antioxidant defence system of erythrocyte was altered as evident by depression of glutathione reductase, glucose 6 phosphate dehydrogenase, whereas the level of reduced glutathione, glutathione peroxidase, glutathione-S-transferase, superoxidedismutase and catalase were stimulated. In the case of plasma fraction, glutathione reductase, glutathione peroxidase, glutathione-s-transferase, glucose-6-phosphate dehydrogenase, superoxide dismutase and levels of reduced glutathione were significantly depressed and the malondialdehyde formation and catalase activity were elevated indicating the less adaptive response of plasma to protect it from oxidative damage.
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PMID:Effects of organophosphorus insecticide phosphomidon on antioxidant defence components of human erythrocyte and plasma. 150 21

The effects of ethanol alone and in combination with sulphanilyl fluoride on some of the antioxidant defences in the stomach of rats have been examined. These effects were correlated with lesion formation in the gastric mucosa. Oral administration of ethanol induced gastric lesions which were prevented by sulphanilyl fluoride pre-treatment. N-Ethylmaleimide antagonized the anti-lesion action of sulphanilyl fluoride. Ethanol administration lowered the glucose-6-phosphate dehydrogenase activity in the gastric mucosa, an effect potentiated by N-ethylmaleimide pre-treatment. The total superoxide dismutase activity was unaffected by the drugs used in the present study. Ethanol, however, markedly increased mucosal catalase activity which was reduced by sulphanilyl fluoride pretreatment and reversed by N-ethylmaleimide. It is concluded that the ulcerogenic mechanism of ethanol is mediated at least in part by the depression of the hexose monophosphate shunt and the production of active oxygen species, whereas the anti-lesion action of sulphanilyl fluoride is probably not mediated through these mechanisms.
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PMID:Ulcerogenic mechanism of ethanol and the action of sulphanilyl fluoride on the rat stomach in-vivo. 168 63

Previous studies by our laboratory have shown that lead nitrate when injected intravenously as a single dose to rats, induces a hyperplastic response in the liver. Liver hyperplasia was accompanied by an increase in cholesterol synthesis, an accumulation of cholesterol esters and by a stimulation of hexose-monophosphate (HMP) shunt enzyme activities. In the present report, hepatic DNA, mitotic index, cholesterol metabolism, as well as glucose-6-phosphate dehydrogenase (G6PD) and 6-phosphogluconate dehydrogenase (6PGD) activities, were investigated during liver hyperplasia induced by lead in fasted rats. Fasting was chosen as an experimental model characterized by a very strong depression of those metabolic pathways (cholesterol synthesis and HMP shunt) that we have found related to liver hyperplasia. The mitogenic response, even if at minor extent, also occurs in liver of fasted rats. A stimulation of cholesterol synthesis and HMP shunt enzyme activities, was also observed in lead-treated fasted rats, adding further support to the fact that an endogenous source of newly synthesized cholesterol together with a suitable increase of HMP shunt enzyme activities is needed during hepatic cell proliferation.
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PMID:Modifying influence of fasting on liver hyperplasia induced by lead nitrate. 234

Tissue and plasma levels of thiobarbituric acid reactive substances (TBARS) were measured in rats treated chronically with doxorubicin. In addition, heart creatine phosphokinase and antioxidant defenses were examined. Male rats received doxorubicin (DXR) 2 mg/kg or vehicle weekly subcutaneously for 13 weeks and were sacrificed at 14 and 19 weeks, 1 and 6 weeks after the last dose, respectively. Histological evaluation in DXR-treated rats at 14 and 19 weeks found significant and progressive cardiac and renal lesions as compared to controls. Heart TBARS were unchanged from controls. Plasma and kidney levels of TBARS were elevated above controls at both 14 and 19 weeks. Lung levels of TBARS were significantly elevated above controls at 14 weeks. Liver levels of TBARS were elevated at 19 weeks. Heart creatine phosphokinase activity was significantly depressed from controls at both 14 and 19 weeks. Heart glutathione peroxidase and superoxide dismutase activities were unchanged from controls. Heart glutathione, glutathione reductase, glucose-6-phosphate dehydrogenase, and catalase were elevated above controls at both 14 and 19 weeks. The lack of change in heart TBARS suggests that changes in TBARS in other organs may be secondary processes. The depression of creatine phosphokinase suggests that levels of adenosine triphosphate may be insufficient to sustain the myocardial function and this may partly be responsible for DXR-induced cardiac myopathy.
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PMID:Effects of chronic administration of doxorubicin on myocardial creatine phosphokinase and antioxidant defenses and levels of lipid peroxidation in tissues and plasma of rats. 259 35

Female B6C3F1 mice were given intraperitoneal injections of ammonium metavanadate (2.5 or 10 mg V/Kg), ammonium chloride, or sodium phosphate buffer every 3 days for 6 weeks. Resident peritoneal macrophages were harvested, lysed by freeze-thawing, and the resulting cytolysate was assayed for total protein content and enzyme activities of glutathione reductase, glutathione peroxidase, and glucose-6-phosphate dehydrogenase. In addition, peritoneal macrophages were assayed for superoxide production using nitroblue tetrazolium reduction, as well as for intracellular levels of oxidized and reduced glutathione. Exposure of mice to vanadium resulted in a dose-trend depression in the three macrophage enzyme activities as compared with the controls. Vanadium treatment resulted in a similar decrease in the production of superoxide anion, and an increase in levels of oxidized glutathione; however, the total glutathione pool (reduced plus oxidized forms) was not affected.
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PMID:Effects of ammonium metavanadate treatment upon macrophage glutathione redox cycle activity, superoxide production, and intracellular glutathione status. 284 97

Salmon (Oncorhynchus kisutch) somatostatin (sSS; 4 or 8 ng/g body wt) or synthetic Gillichthys urotensin II (UII; 2 or 4 ng/g body wt) were injected intraperitoneally into juvenile freshwater coho salmon. Both sSS and UII caused a dose-dependent increase in plasma free fatty acids (FFA) which diminished with time. sSS induced an initial (1 hr) transient hyperglycemia. By contrast, UII tended to induce hypoglycemia, this effect being significant 5 hr after injection of the higher dose. Both sSS and UII depressed plasma insulin titers 1 hr after injection. By 3 hr, the sSS-associated insulin depression was no longer observed. UII treatment induced a hyperinsulinemia which was present 3 and 5 hr after peptide administration. Although no decreases in liver total lipid concentration or in mesenteric fat total tissue mass were observed, lipolytic enzyme activity within each depot was significantly enhanced by both peptides. Neither sSS nor UII altered 3H2O incorporation into fatty acids or neutral lipids. However, enhanced lipogenesis, particularly by UII, was indicated by increased NADPH production resulting from glucose-6-phosphate dehydrogenase activity. Both sSS and UII enhanced glucose mobilization, as indicated by decreased liver glycogen content and increased liver glucose-6-phosphatase activity. UII, but not sSS, stimulated glycogen synthetase activity. These results suggest that both sSS and UII stimulate hyperlipidemia by enhancing depot lipase activity and that although both factors are potentially gluconeogenetic, sSS seems to be glycogenolytic and hyperglycemic, whereas UII may channel glucose to FFA synthesis.
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PMID:Effects of somatostatin-25 and urotensin II on lipid and carbohydrate metabolism of coho salmon, Oncorhynchus kisutch. 288 97

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