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

---

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

Jejunoileal bypass operation was originally done to promote weight loss for treatment of morbid obesity. We used such a model to determine if dietary vitamin absorption is compromised by such an operation. Six rats were subjected to a jejunoileal bypass, 6 control rats were pair-fed to bypassed rats; and 6 were fed ad libitum. Vitamin content of folic, B6, riboflavin, nicotinate, pantothenate, thiamin, biotin, B12, vitamins A, E, and carotene in blood and liver was determined after 8 postoperative weeks. Aside from riboflavin, blood vitamin levels were significantly depressed in bypassed rats. The deepest depression was seen for B12, carotene and vitamin E. Liver vitamin stores of folate, riboflavin, thiamin, B12, clearly were significantly depressed in the bypassed animals compared to the pair-fed and ad libitum-fed controls. This model can serve for rapidly studying micronutrient depletion due to malabsorption without dietary manipulation or antibiotics for gut sterilization.
...
PMID:A jejunoileal bypass rat model for rapid study of the effects of vitamin malabsorption. 158 7

Since experiments with freshly isolated rat hepatocytes have shown that cellular vitamin E is consumed in response to insult by compounds that induce an oxidative stress only after cellular glutathione (GSH) concentrations have been substantially depleted, experiments were performed to determine whether this sequence of events occurred in response to oxidative insult in vivo. The role that plasma vitamin E plays in the response to chemically induced oxidative injury in vivo was also assessed. Treatments with 40 mg/kg of methyl ethyl ketone peroxide (MEKP) quickly induced lipid peroxidation in vivo and from one to 4 h after treatment caused a depression in the plasma content of vitamin E and the liver content of GSH, as well as signs of toxicity (elevations in serum activities of alanine and aspartate aminotransferases). At these time points however, the liver content of vitamin E was either indistinguishable from or slightly elevated from controls. By 12 to 24 h after treatment the liver content of vitamin E was reduced by 20-25% whereas values for all other indicators had returned toward control levels. Pretreatment of rats with L-buthionine-S,R-sulfoximine, an inhibitor of GSH by 4 or 24 h after treatment, did not alter the time course or extent of hepatic vitamin E depletion that was observed after treatment with MEKP. Other compounds that induce oxidative stress and lipid peroxidation to the liver, carbon tetrachloride and menadione, did not provoke an alteration in hepatic vitamin E levels as compared to controls 1 day after treatment. These findings indicate that depletion of hepatic vitamin E may not occur as an immediate consequence of oxidative insult to the liver and that the depletion of hepatic vitamin E levels may not be related to the extent of prior GSH depletion. Moreover, these findings suggest that alterations in the plasma concentration of vitamin E may not reflect concurrent alterations in hepatic vitamin E levels. A mechanism whereby liver vitamin E stores are mobilized for the maintenance of plasma vitamin E levels is proposed.
...
PMID:Modification of hepatic vitamin E stores in vivo. I. Alterations in plasma and liver vitamin E content by methyl ethyl ketone peroxide. 199 Sep 80

Experiments were conducted to determine the basis of the reduction in tissue alpha-tocopherol concentrations by excess dietary zinc (Zn) in chicks fed purified diets. These reductions were preceded by elevations in the Zn concentrations of plasma and pancreas, and in the amylase activity of plasma and by reductions of exportable enzymes of the pancreas. Chicks fed similar levels of Zn as supplements to a non-purified diet showed no such impairments in either exocrine pancreatic function or tissue alpha-tocopherol concentrations. Depression of feed intake and subsequent changes of concentrations of tissue lipid components by excess dietary Zn accounted for only a minor portion of the reduction of tissue alpha-tocopherol concentrations. Tissue alpha-tocopherol concentrations were moderately correlated with tissue lipid concentrations. The rate of appearance of radioactivity from an oral dose of all-rac-alpha-tocopherol-[3,4-3H]2 in plasma was reduced by 64% by addition of 500 mg Zn/kg to the purified diet for 2 wk. These results indicate that impaired enteric absorption and/or transport of vitamin E as a consequence of Zn-induced pancreatic insufficiency is a major cause of reduced tissue concentrations of alpha-tocopherol produced by excess dietary Zn.
...
PMID:Excess dietary zinc decreases tissue alpha-tocopherol in chicks. 246 40

The effect of the addition of dietary ascorbic acid and/or vitamin E (all-rac-alpha-tocopheryl acetate) in rats and guinea pigs exposed to PCB (polychlorinated biphenyls) was studied. Rats were fed diets containing one of three levels of vitamin E (30, 500 or 1000 mg/kg diet) with or without PCB (200 mg/kg diet). Guinea pigs were fed diets containing PCB (40 mg/kg diet) with 200 or 1000 mg ascorbic acid/kg diet and/or 70 or 2000 mg vitamin E/kg diet. For rats fed PCB, ascorbic acid in urine was 40-fold higher and in liver, 2-fold higher than for rats fed no PCB, and thiobarbituric acid-reactive substances (TBA-RS, indicators of lipid peroxidation) in liver was 1.5-fold higher. In rats fed PCB, high dietary vitamin E significantly lowered the urinary ascorbic acid and TBA-RS. Liver ascorbic acid was lowered by high dietary vitamin E only in control rats. In guinea pigs, feeding PCB caused severe growth retardation and the liver TBA-RS was 1.8-fold higher than in guinea pigs not fed PCB. Feeding high levels of both ascorbic acid and vitamin E was more effective in reversing the growth depression and in lowering TBA-RS level (due to PCB) than feeding the vitamins separately. Ascorbic acid metabolism in rats was affected by high dietary vitamin E. The possibility of a higher requirement for ascorbic acid and vitamin E in guinea pigs exposed to PCB was indicated. Interaction of ascorbic acid and vitamin E in animals exposed to PCB was suggested.
...
PMID:Effect of dietary ascorbic acid and vitamin E on metabolic changes in rats and guinea pigs exposed to PCB. 308 May 60

Serum haemagglutination (HA) titers have been determined for irradiated and non-irradiated mice responding to injection of two different concentrations of sheep red blood cells (SRBC) 24 to 48 hours after irradiation and immediate intraperitoneal injection of 2.5 mg DL alpha-tocopherol, the emulsifying vehicle, or saline. Mice maintained on tocopherol-deficient diets for 8 weeks post-weaning and those on regular diets exhibited increased IgG titers during peak response when injected with vitamin E. This partially alleviated the radiation-depression of the primary immune response induced by the smaller SRBC injection. This stimulatory effect was most significant in mice maintained on vitamin E-deficient diets. The HA titers of irradiated and non-irradiated mice maintained on normal rations were determined following a 10-fold increase in the SRBC inoculation. Antibody titer was greater following injection of the higher concentration of SRBC but post-irradiation injection of tocopherol immediately or 24 hours after irradiation did not enhance immune response. At the higher SRBC concentration maximum observed HA titers decreased with increasing dose of radiation; however, tocopherol had no significant dose-reducing effect. Tocopherol toxicity as manifested by depressed HA titers was observed occasionally in non-irradiated mice challenged with the higher concentration of SRBC.
...
PMID:Humoral immune response of mice injected with tocopherol after exposure to X-radiation. 345 Jul 11

Studies were conducted to determine the relationship between dietary vitamin E (VE) and the development of nutritional pancreatic atrophy (NPA) in selenium (Se)-deficient chicks. Selenium- and VE-depleted chicks reared on a low Se, amino acid-based diet containing 100 IU VE (as all-rac-alpha-tocopheryl acetate) per kilogram were found to have exceedingly low pancreatic activities of Se-dependent glutathione peroxidase (SeGSHpx) at 8 d of age. Supplementation of the purified diet with 500 or 1,000 IU VE/kg prevented both NPA and the associated growth depression. Use of graded dietary VE levels showed that addition of at least 300 IU/kg was required to overcome the growth depression associated with severe Se deficiency. Although tissue alpha-tocopherol concentrations increased linearly with increasing dietary levels of VE, the response in pancreas was less than (about one-half of) those in liver and heart and, unlike the response in heart, was not affected by dietary Se level. That protection against NPA involved the antioxidant action of VE was suggested by results showing that NPA is promoted by high dietary levels of linoleic acid, that high VE levels correct membrane unsaturated fatty acid losses due to Se deficiency and that NPA is prevented by high levels of other antioxidants. It is suggested that the normally low activities of SeGSHpx and concentrations of alpha-tocopherol in the pancreas may predispose that organ to lesions due to oxidative stress under conditions of severe nutritional Se deficiency that results in further depletion of SeGSHpx. This situation may be overcome by feeding VE at 15-20-fold excesses over the levels normally regarded as nutritionally required.
...
PMID:Influence of dietary vitamin E on nutritional pancreatic atrophy in selenium-deficient chicks. 357 59

Experimental rats received diets containing varying amounts of vitamin E (100, 12.5 and 0 mg alpha-tocopherol acetate/kg food) during 4 months. It was found that although subnormal intake (12.5 mg/kg) of DL-alpha-tocopherol resulted in a 60% decrease of its concentration in the rat blood serum, it induced a significant lowering in the hemolytic stability of red blood cells, pronounced impairment of the rats' myocardial contractile function was observed as compared to the animals which received optimal doses of the vitamin (100 mg/kg food). The impairment was expressed in a decrease of the tension developed, depression of Starling's curve (the ratio between the initial length and the tension developed), the lowering of the myocardial resistance to Ca2+ excess, resulting in a more rapid development of the calcium-induced contracture. An increased vitamin E deficiency (0 mg DL-alpha-tocopherol/kg food), an 11-fold lowering of tocopherol concentration in the blood and a drastically enhanced hemolysis of red blood cells did not lead to a further impairment of the myocardial contractile function parameters studied.
...
PMID:[Effect of varying the vitamin E allowance on the contractile function of the heart muscle]. 373 13

Whole mice on normal or vitamin E deficient diet were immobilized by Nembutal anaesthesia and exposed to a stationary magnetic field of 1.4 tesla for up to 60 min. Thymidine kinase (TdR-K) was assayed in the high-speed supernatant of bone marrow cells which were collected into optimally adjusted nutrient medium of pH 7.3-7.4 containing 1350 mg NaHCO3 per litre and were then destroyed by sonication. In parallel, uptake of 125I-labelled 5-I-2'-deoxyuridine (125IUdR) into DNA of whole bone marrow cells, of various tissues and of the whole body was measured. The results indicate the following. The magnetic field exposure caused in bone marrow cells an increase of activity of TdR-K and of uptake of 125IUdR to about 130 per cent of control. The effect depended on immobilization of the mice in the field and on the presence of NaHCO3 in the nutrient medium used for cell collection. There was no field-induced change in body temperature. The effect on 125IUdR uptake was similar in isolated tissues and the whole body following intraperitoneal injection of the tracer. It increased to a maximum of about 135 per cent of control, during exposure times over 30 min. This effect is not explained as a result of a temporary change in the rate of cell proliferation. Vitamin E deficiency caused a depression of activity of TdR-K and of uptake of 125IUdR in bone marrow cells to about 75 per cent of control. This depression was similar to that observed after whole body gamma-irradiation with about 0.01 Gy (1 rad). The inhibitory effects of vitamin E deficiency on TdR-K were overcome by exposure to the magnetic field. Immediately after cessation of the magnetic field for 60 min, 125IUdR uptake was normal; normalization of uptake was delayed with exposure times shorter than 60 min. A 60 min exposure to the magnetic field had no long term effect on turnover of labelled cells in the mice. The data imply the non-specific control of thymidine kinase by charged molecular species and the modification of this control by the magnetic field.
...
PMID:Magnetic field affects thymidine kinase in vivo. 387 39

We studied the effect of arachidonic acid on function and CPK release of normal, ischemic and reperfused isolated rat hearts. Under control conditions arachidonate (10 micrograms/ml) produced a transient inotropic effect which gradually reversed during a 90 minute perfusion. Creatinephosphokinase (CPK) release was augmented by arachidonic acid, particularly under high flow (pre-ischemia and reperfusion) conditions. Recovery of contractility following reperfusion of ischemic myocardium was significantly depressed by arachidonic acid. Vitamin E (100 ng/ml) an antioxidant and free radical scavenger, reduced the enzyme leakage and enhanced recovery of contractility of reperfused myocardium. It also prevented the depression in contractility during control perfusion. Similar protective effects were observed by perfusing the heart with reduced calcium but not by nifedipine; a calcium channel blocker, indomethacin; a prostaglandin synthesis inhibitor or nordihydroguarietic acid; a lipoxygenase inhibitor. Arachidonic acid also inhibited membrane Na+/K+-ATPase although it is unlikely that this property mediated its cardiotoxic influence since it was not prevented by vitamin E. In addition, we observed that arachidonic acid increased the coronary resistance of isolated hearts, probably through enhanced calcium influx as this constriction was reduced by low calcium as well as by nifedipine. Thus, arachidonic acid possesses distinct properties. Its cardiotoxic influence is likely mediated by free radical generation.
...
PMID:Toxic properties of arachidonic acid on normal, ischemic and reperfused hearts. Indirect evidence for free radical involvement. 392 Jun 82

The data are provided on the efficacy of the use of the beta-adrenoblocker inderal and the natural antioxidant vitamin E as agents that prevent the immobilization stress-induced depression of the activity of natural killers. The problems of the prevention of the action of excess catecholamines and activation of lipid peroxidation as pathogenetic component in the development of stressor depression of the activity of natural killers are discussed.
...
PMID:[Prevention of the stress-induced decrease in natural killer activity by using a beta-adrenergic blocker and vitamin E]. 404 Apr 6


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>

---