DrugBank:EXPT00568 - FACTA Search

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Query: DrugBank:EXPT00568 (ascorbate)
23,072 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Paraquat inhibits the in vitro hepatic microsomal metabolism of both ethylmorphine and aniline. Inclusion of ascorbate with paraquat in the incubations did not alter the paraquat effect on ethylmorphine N-demethylase activity but potentiated the inhibition of aniline p-hydroxylase activity. Ascorbate alone was without effect on the metabolism of either substrate. Paraquat stimulated the hepatic microsomal oxidation of nicotinamide adenine dinucleotide phosphate (NADPH) equally in the absence of mixed-function oxidase (MFO) substrates or in the presence of ethylmorphine; in the presence of aniline the rate of NADPH oxidation was significantly greater. Also, in the presence of aniline, ascorbate potentiated the paraquat-induced NADPH oxidation, while it was ineffective with paraquat on NADPH oxidation in the presence of ethylmorphine or in the absence of substrates for the microsomal MFO system. The potentiated inhibition of aniline metabolism, concomitant with the potentiated stimulation of NADPH oxidation, was consistent whether liver microsomal fractions were prepared from control rats or from animals induced with phenobarbital. Investigation of possible influences on NADPH cytochrome c reductase activity was precluded by the rapid nonenzymatic reduction of cytochrome c by ascorbate. The paraquat-ascorbate redox couple would not reduce cytochrome P-450. These data suggest that a paraquat interaction with the active microsomal MFO enzyme system plays a role in the depletion of cellular NADPH stores that occurs after paraquat administration in vivo. This mechanism may play a significant role in the development of paraquat toxicity and in the potentiated toxicity observed with ascorbate and paraquat.
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PMID:Ascorbic acid potentiates the substrate-specific inhibition of mixed-function oxidation and the stimulation of NADPH oxidation caused by paraquat. 671 12

The effects of long-term chronic ascorbic acid deficiency and excessive ascorbic acid consumption on bile acid metabolism and biliary lipid composition were studied in guinea pigs. Male, weanling guinea pigs were fed a cereal-based scorbutigenic diet for 19 or 21 weeks. Ascorbic acid was administered either orally at 0.15 (group A) or 2.0 (group B) mg/100 g body weight, or it was mixed in the diet at levels of 500 (group C), 16-22 (group D), or 20,000 mg/kg (group E). Chronic ascorbic acid deficiency (groups A and D) caused depression of hepatic cytochrome P-450 levels and elevation of plasma cholesterol. Excessive ascorbate consumption did not alter these parameters relative to control levels. In contrast to results obtained in guinea pigs fed low or high amounts of ascorbate for 7-9 weeks, prolonged consumption of inadequate or excessive ascorbate resulted in little or no change in bile acid metabolism and biliary lipid composition except that bile acid pool size was increased 12% as a result of excessive ascorbate ingestion. Results of the present study suggest that there may be important differences in the guinea pig's metabolic response to ascorbic acid deficiency and ascorbic acid excess, depending on the length of the experimental period.
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PMID:Long-term effects of inadequate and excessive dietary ascorbate on bile acid metabolism in the guinea pig. 674 20

Studies were carried out to characterize the response of hepatic mixed function oxidase (MFO) activity to chronic ascorbic acid deficiency and excessive ascorbic acid intake in the guinea pig. When guinea pigs were fed excessive ascorbic acid, there was a small increase in hepatic cytochrome P-450 which was unaccompanied by any alteration in drug-metabolizing enzyme activity. Similarly, induction of MFO activity by phenobarbital was not modified by excessive ascorbic acid administration. Chronic ascorbic acid deficiency resulted in depressed metabolism of aniline, aminopyrine, ethoxycoumarin and benzphetamine, but not of ethylmorphine, in comparison with animals fed diets containing control and/or excessive amounts of ascorbic acid. In contrast to the metabolism of all drugs studied, the 7 alpha-hydroxylation of cholesterol was depressed by both inadequate and excessive vitamin C intake, demonstrating the unique sensitivity of cholesterol 7 alpha-hydroxylase to dietary ascorbate.
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PMID:Dietary ascorbic acid and hepatic mixed function oxidase activity in the guinea pig. 683 Jun 22

Administration of alpha-tocopherol (50 mg/kg) as an oily emulsion into male rat stomach every 12 hours 2 days before and 3 days after local disturbance in liver circulation prevents postischemia (72 hours after resumption of circulation) repression of amidopyrine-N-demethylation, aniline-hydroxylation, NADP H-neotetrazolium reductase, NADP H oxidase, a decrease in the cytochrome P-450 level, as well as intensification of ascorbate-dependent lipid peroxidation of hepatocyte endoplasmic reticulum membranes. The protective effect of alpha-tocopherol is suggested to be due to its antioxidative and membrane-stabilizing properties.
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PMID:[Stabilizing action of alpha-tocopherol in postischemic damage to the hydroxylating system of the endoplasmic reticulum membranes of the rat liver]. 683 Oct 15

Content and functional activity of rat liver microsomal haemoproteins were studied after injection of heliotrin (HT). Heliotrin, at a dose of 30 mg/100 g, decreased distinctly cytochrome P-450 concentration in microsomes and increased the rate of inactivation of the enzyme reduced form. Decrease in the NADPH and NADH-dependent flavoprotein activities, decrease in O-dealkilating and p-hydroxylating activities and a distinct increase in NADPH- and ascorbate-dependent peroxidation of membrane lipids were found in rat liver microsomes treated with HT. As shown by polarographic analyses HT influenced the increase in the rate of NADPH oxidation similar to the effects caused by typical substrate of hydroxylation dimethylaniline. When the binding spectra were estimated, HT proved to have high affinity to cytochrome P-450. The data obtained suggest that HT appears to interact with the microsomal monooxigenase liver tissue system.
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PMID:[Influence of heliotrin on the rat liver microsomal oxidation system]. 683 59

If 60 min long ischemia of a liver tissue lobe occurred after feeding of rats with oil emulsion of alpha-tocopherol at a dose of 50 mg/kg within 12 hrs during 2 days, the "ischemic" decrease in metabolism of amidopyrine and aniline, in content of cytochrome P-450 and activity of initial and middle steps of NADPH-dependent redox chain as well as intensification of ascorbate-dependent peroxidation of membrane lipids were prevented in endoplasmic reticulum of hepatocytes. The protective effect of alpha-tocopherol on these xenobiotics metabolism is apparently related to an increase in catalytic activity of cytochrome P-450, to the enzyme antioxidant and membrane-stabilizing properties.
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PMID:[Effect of alpha-tocopherol on the hydroxylating system and lipid peroxidation in membranes of endoplasmic reticulum from ischemic rat liver]. 683 66

[14C]Methoxychlor was incubated with NADPH-fortified liver microsomes from male rats, and covalent binding to microsomal components was determined. The binding process was markedly enhanced when microsomes from phenobarbital-treated rats were employed. However, when microsomes from methylcholanthrene-treated rats were used the level of binding was not significantly affected. Incubation in the presence of glutathione, cysteine, or ascorbate markedly diminished binding. Metyrapone and SKF 525-A, inhibitors of hepatic cytochrome P-450-linked monooxygenase activity, inhibited the binding. Also, ethylmorphine and hexobarbital, alternate substrates of the monooxygenase system, inhibited binding. There was no binding to microsomal components in the absence of NADPH or oxygen. TCPO (1,1,1-trichloropropane-2,3-oxide), an inhibitor of epoxide hydrase activity, failed to enhance the binding process. However, N,N'-diphenyl-p-phenylenediamine (NDP) and n-propyl gallate (PG), both free radical scavengers, decreased binding at micromolar concentrations without altering the extent of formation of polar [14C]methoxychlor metabolites. It was concluded that methoxychlor undergoes a hepatic microsomal monooxygenase(s)-mediated activation and that the resultant reactive metabolites (possibly free radicals) bind covalently to microsomal components. By contrast, the binding resulting from the incubation of an impure mixture of polar [14C]methoxychlor metabolites with liver microsomes did not require NADPH and O2 and was not affected by NDP, Pg, ascorbate, or heat-treatment of microsomes. This finding suggested that the binding subsequent to the initial metabolic activation of methoxychlor does not require further enzymatic transformation. However, whether the binding with metabolites represents the same chemical species as the binding with [14C]methoxychlor remains to be established.
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PMID:Covalent binding of [14C]methoxychlor metabolite(s) to rat liver microsomal components. 685 71

Hepatic heme oxygenase activity was significantly altered in vitamin C-deficient guinea pigs. It was increased two-fold after 14 days and was decreased by 20% after 21 days of deprivation of the vitamin (always in comparison with the control value). The apparent Km of the enzyme was also altered in the course of ascorbic acid deficiency. The data of hepatic heme oxygenase activity correspond to previous results on the metabolism of hepatic cytochrome P-450 in different stages of ascorbic acid deprivation. Splenic heme oxygenase activity decreased progressively arriving at 50% of the control value after 21 days of vitamin C omission, its apparent Km remained unaltered.
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PMID:Activity of microsomal heme oxygenase in liver and spleen of ascorbic acid-deficient guinea pigs. 689 16

The influence of chronic ascorbic acid (AA) deficiency and excessive ascorbate consumption on bile acid metabolism, liver and plasma cholesterol levels, hepatic microsomal cytochromes and biliary lipid composition was investigated. Male weanling guinea pigs were fed a cereal-based scorbutigenic diet supplemented with four levels of AA for 7 weeks: deficient, 15 and 30 mg/kg; control, 500 mg/kg; and excess, 20,000 mg/kg. Bile acid kinetic parameters were determined following the intraperitoneal administration of [24-14C] chenodeoxycholic acid. Dietary extremes of AA caused similar alterations in the parameters studied. Relative to the control group, the deficient and excess groups exhibited reduced cytochrome P-450 concentration, lower cholesterol 7 alpha-hydroxylase activity, lower bile acid turnover rate, prolonged bile acid half-life and increased plasma and liver cholesterol concentrations. Deficient and excess groups also exhibited lower biliary cholesterol saturation (i.e., increased bile acid-neutral sterol ratios) than controls. Urinary bile acid excretion was 2- to 3-fold higher in excess guinea pigs than in the other three groups. The data demonstrate the exceptional susceptibility of cholesterol 7 alpha-hydroxylase activity to alteration by dietary extremes of AA, resulting in marked inhibition of bile acid synthesis and elevation of cholesterol levels by both inadequate and excessive AA intake.
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PMID:Influence of chronic ascorbic acid deficiency and excessive ascorbic acid intake on bile acid metabolism and bile composition in the guinea pig. 720 99

Although interaction of vitamin C, copper and iron have been studied in several species, little is known about these interactions in species which require the vitamin in the diet. Young male Hartley guinea pigs were fed a basal diet, or a basal diet and supplemented daily with vitamin C, p.o. Pharmacologic doses (25 mg per 100 g BW per day) of vitamin C resulted in two-to-three-fold decreases in liver copper, when compared with those receiving normal (0.5 mg per 100 g BW per day) intakes. Under conditions of vitamin C deficiency, serum copper and ceruloplasmin were elevated along with liver copper. Serum and hepatic iron levels, hepatic microsomal cytochrome P-450 and cytochrome b5, and blood heme parameters all appeared to be directly related to vitamin C intake, i.e. the iron and heme parameters increased as the vitamin dose increased. These data are consistent with the hypothesis that interaction between vitamin C, copper and iron influence normal heme formation through the oxidation/reduction of iron and/or by regulating iron absorption and availability at the gut level.
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PMID:Effect of vitamin C on copper and iron metabolism in the guinea pig. 742 59

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