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

1. The chemical reactivity of bromobenzene metabolite(s) responsible for its protein covalent binding was investigated by determining the effects of many chemical and enzymic probes on the metabolism and covalent binding of [3,5-3H]bromobenzene with rat liver microsomes in vitro. 2. Classical cytochrome P-450 enzyme inhibitors decreased both metabolism and binding in parallel, whereas scavenging agents for reactive oxygen species and free radicals exhibited little or no effect. Sulphur nucleophiles were extremely efficient in decreasing binding with little or no effect on metabolism. Reducing agents such as ascorbate and diaphorase decreased binding slightly more than metabolism. 3. UDP-Glucuronic acid inhibited neither metabolism nor binding, but all three mono-bromophenols decreased binding more than metabolism. Trichloropropene oxide was unique in decreasing metabolism more than binding. 4. The effects of ascorbate, glutathione, bisulphite and butylated hydroxytoluene (BHT) on metabolism and binding of five ortho-substituted bromobenzene derivatives (o-BrC6H4X; X = OCH3, CH3, Br, CF3, and CN) were similar to their effects on the metabolism and binding of bromobenzene. 5. Collectively these results support a major role for quinones as the reactive metabolites responsible for the majority of the protein covalent binding of bromobenzene and its ortho-substituted derivatives in microsomal systems in vitro.
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PMID:Effects of chemical and enzymic probes on microsomal covalent binding of bromobenzene and derivatives. Evidence for quinones as reactive metabolites. 340 Feb 72

The adrenal cortex is the site of the synthesis of the steroid hormones such as the glucocorticoid cortisol and the mineralocorticoid aldosterone. The pathway of biosynthesis of these steroids from cholesterol involves a sequence of transformations using cytochrome P-450 enzymes. The hypothesis presented here is that damage to cytochrome P-450 enzymes on interaction with certain steroids, synthesized by the adrenal cortex itself, may be of pathological and perhaps physiological importance. The interaction between cytochrome P-450 enzymes and these steroids, which act as pseudosubstrates, may form part of the pathogenesis of some steroidogenic enzyme deficiencies, with consequent overproduction of precursor steroids, leading to mineralocorticoid or androgen excess. This interaction is dependent on achieving high concentrations of the pseudosubstrate steroids in the adrenal cortex, which probably occurs as a result of the arrangement of the vasculature in the adrenal gland. High concentrations of steroids may be expected to accumulate in steroidogenic cells, both in culture and in vivo, and may have autoregulating effects. The high content of antioxidant compounds in the adrenal cortex, principally ascorbate, may serve to protect cytochrome P-450 enzymes from the damaging effects of oxygen radical species formed as a result of cytochrome P-450/pseudosubstrate interactions.
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PMID:Cytochrome P-450/pseudosubstrate interactions and the role of antioxidants in the adrenal cortex. 354 74

Two nitrofuran compounds, nifurtimox and nitrofurantoin, inhibited in a concentration-dependent manner the NADPH-, iron-induced lipid peroxidation in rat liver microsomes, as shown by the decreased rate of MDA accumulation. Other nitro compounds (benznidazole and chloramphenicol) were relatively inactive. Nifurtimox inhibition affected polyenoic fatty acids and cytochrome P-450 degradation that follows lipid peroxidation. The ascorbate- or tert-butyl hydroperoxide-dependent lipid peroxidations were much less inhibited than the NADPH-dependent one. Nifurtimox and nitrofurantoin, but not benznidazole and chloramphenicol, strongly stimulated the microsomal NADPH-oxidase activity, thus supporting electron diversion, as the main cause of the inhibition of peroxidation initiation.
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PMID:Nitrofuran inhibition of microsomal lipid peroxidation. 360 11

The peroxyl radicals CF3O2., CCl3O2. and CBr3O2. were produced by radiolysis of aerated aqueous-alcohol solutions of CF3Br, CF3Cl, CCl4 or CBr4. Kinetic spectrophotometric pulse radiolysis experiments were carried out in the presence of various substrates: urate, ascorbate, xanthine, hydroquinone, p-methoxyphenol, phenol and chlorpromazine. Absolute rate constants for one-electron oxidation of these substrates by the alkylperoxyl radicals were found to vary from less than 10(5) to greater than 10(9) M-1 s-1, depending to some extent on the redox potential of the substrate. For all substrates the order of reactivity was CF3O2. greater than CBr3O2. greater than CCl3O2. . Because of its high reactivity, CF3O2., may have deleterious effects on biological systems. Its likely environmental precursor, CF3Br, which is used as a fire extinguisher and a refrigerant, was found to be reduced by a ferrous porphyrin model for cytochrome P-450 only very slowly and thus is not expected to have a major toxic effect if inhaled.
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PMID:Rate constants for one-electron oxidation by the CF3O2., CCl3O2., and CBr3O2. radicals in aqueous solutions. 362 70

Indole-3-carbinol (I-3-C) was examined for its ability to protect mice against 24-hr N-nitrosodimethylamine (NDMA)-mediated hepatotoxicity. NDMA (20 mg/kg body weight) alone produced extensive hemorrhagic and centrolobular necrotic lesions, with a necrotic severity index of 3.0 +/- 0.4 (scale of 0-5). Treatment with 50 mg/kg body weight of I-3-C by gavage, 1 hr prior to NDMA, substantially protected against hemorrhagic lesions. Furthermore, I-3-C lowered the NDMA-mediated tissue necrotic index to 1.5 +/- 0.3, by reducing the extent of tissue necrosis rather than the severity in the necrotic region. Release of liver enzymes into the blood correlated with the histopathology; I-3-C reduced NDMA-mediated elevated activities of plasma alanine transaminase and ornithine transcarbamylase by 84 and 51.3%, respectively. Although no changes in nonprotein sulfhydryls were evident at 24-hr after NDMA, ascorbate levels were reduced to 40% of control values. However, treatment with I-3-C prior to NDMA prevented the decline in tissue ascorbate concentrations. In vitro, I-3-C was found to be a type II ligand for cytochrome P-450, with a Ks value of 237 microM. However, if such binding occurs in vivo, it does not protect against the approximately 60% decrease in hepatic cytochrome P-450 or the 80% decrease in NDMA demethylase I activity produced by NDMA. Since I-3-C slightly enhances cytochrome P-450 content and NDMA demethylase activity, the histopathologic protection by I-3-C must be due to factors other than inhibiting metabolic activation of NDMA.
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PMID:Protection from N-nitrosodimethylamine-mediated liver damage by indole-3-carbinol. 365 48

We have demonstrated in rat adrenal (Natarajan, R.D. and Harding, B.W. (1985) J. Biol. Chem. 260, 3902-3905) that NADH-semidehydroascorbate reductase and ascorbate participate in an electron transport pathway (ETP) supplying reducing equivalents from NADH to cytochrome P-450scc. Here, we demonstrate that this ascorbate dependent ETP also supplies reducing equivalents to cytochrome P-450(11 beta/18) in both rat adrenal and bovine adrenal cortex. The activity is dependent upon addition of catalase or upon 'cold shock' treatment of isolated mitochondria. Comparison of the rates of 11 beta- and 18-hydroxylation supported by this ETP and by the classical pathway supported by various TCA cycle intermediates suggests that in vivo the ascorbate dependent pathway may be essential for maximal flow of reducing equivalents to the mitochondrial hydroxylases. Partial reconstitution of the ascorbate dependent 11 beta/18-hydroxylase activity was achieved with purified bovine outer mitochondrial and inner mitochondrial membranes fortified with supernatant from sonified mitochondria all preincubated with phosphatidyl choline. These preparations no longer require catalase or 'cold shock' treatment. Ascorbate and NADH-semidehydroascorbate reductase are unable to support 17 alpha- or 21-hydroxylase activity in isolated bovine adrenal cortical microsomes whether incubated with purified outer mitochondrial membranes or not.
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PMID:The function of NADH-semidehydroascorbate reductase and ascorbic acid in corticosteroid hydroxylation. 366 95

Hepatic rough and smooth microsomes of newborn rats show less sensitivity to ascorbate- and NADPH-induced lipid peroxidation as compared to those of adult rats. Though optimum concentrations of Fe2+, ascorbate and Fe3+ significantly increase lipid peroxidation in both age groups, the lipid peroxidation observed in newborns is much less compared with that of adults. Microsomal fractions from newborn rats contain significantly lower amounts of phospholipid, NADPH cytochrome c reductase, cytochrome P-450 and a lower degree of unsaturation in lipids. These fractions also exhibit high cholesterol:phospholipid ratios. The resistance to lipid peroxidation observed in the newborns appears to be due to the low availability of substrate and high cholesterol:phospholipid ratio.
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PMID:Low level of lipid peroxidation in newborn rats. Possible factors for resistance in hepatic microsomes. 369 52

Levels of cytochrome P-450 and cytochrome b5, and activities of NADPH cytochrome c reductase and 7-ethoxycoumarin O-deethylase, were found to be significantly decreased in hepatic microsomes prepared from mice killed 24 h after administration of a single intraperitoneal (i.p.) dose of adriamycin (ADR, 5 mg/kg). In contrast, both ascorbate-induced lipid peroxidation and conjugated dienes were increased in the same preparations. In vitro addition of ADR (5 micrograms/ml) to hepatic microsomal preparations (1 mg/ml protein) from the control mice also led to a substantial decrease in the mixed function oxidase (MFO) enzymes. A characteristic spectral change with an absorption peak at 408 nm and trough at 422 nm was associated with this in vitro interaction. It is suggested that the loss of cytochrome P-450 and related MFO enzymes due to ADR treatment is related to the generation of free radicals and subsequent lipid peroxidation in the liver.
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PMID:Depression of mouse liver microsomal mixed function oxidase enzymes by adriamycin. 393 35

Activity of the flavin-containing monooxygenase (FMO) was reduced significantly in ascorbic acid deficient guinea pigs. Reduction in oxidation of dimethylaniline (DMA) and of thiobenzamide was associated with a decrease in the activity of the FMO. In both ascorbate supplemented and deficient guinea pig hepatic 12,000 g supernatant fractions, SKF-525A and n-octylamine did not inhibit DMA N-oxidation. Phenobarbital pretreatment did not increase the rate of N-oxidation of DMA. In addition, hepatic supernatant fractions thermally treated at 50 degree were unable to N-oxidize DMA, but 80% of the cytochrome P-450 activity was retained. Also, N-oxidation of DMA was reduced by 53% at pH 7.0, while oxidation of cytochrome P-450 specific substrates was inhibited by only 19%. Kinetic studies of DMA N-oxidation indicate no significant change in the apparent Km in ascorbate supplemented or deficient animals. The in vitro addition of ascorbic acid had no effect on the activity of the FMO. The toxicological implications of the reduction in FMO activity in ascorbic acid deficiency are discussed.
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PMID:Ascorbic acid deficiency and the flavin-containing monooxygenase. 394 95

The effect of alimentary vitamin A deficiency on some parameters of lipid peroxidation (LPO) in young rats was studied. It was found that under vitamin A deficiency the content of diene conjugates in liver homogenates and microsomes diminishes, whereas that of malonic aldehyde in small intestinal mucosa, liver and testis homogenates is unaffected. However, the malonic aldehyde production in liver homogenates and microsomes decreases after 60 min incubation at 37 degrees C without addition of prooxidants. At the same time, enzymatic NADPH-dependent and nonenzymatic ascorbate-dependent LPO in liver microsomes of vitamin A-deficient rats does not change significantly. The decrease of LPO intensity in vitamin A-deficient animals may be due to the reduced content in liver microsomes of the main LPO substrates, i.e., arachidonic and linoleic acids, as well as to the decrease of cytochrome P-450 level in rat liver.
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PMID:[Vitamin A and lipid peroxidation: effect of retinol deficiency]. 395 6


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