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The effects of dietary pantethine levels on the contents and compositions of fatty acids and on the levels of lipid peroxides were investigated with rat liver and its S-9 fraction under administration of 0 (non), 0.2 (low dose), and 0.35 ml (high dose) of autoxidized linoleate (AL) per 100 g body weight of the rats per day for 5 days. AL having 800 meq/kg of peroxide value (PV) and 1,700 meq/kg of carbonyl value (CV) was dosed to the rats of each group given drinking water containing 0 mg% (deficient), 6.25 mg% (adequate), and 125 mg% pantethine (excess). In the pantethine-deficient and -adequate groups, the contents of fatty acids both in the liver homogenate and in the S-9 fraction were correspondingly decreased by increasing dose levels of AL, and the decrease was remarkable especially in the pantethine-deficient group, but was not significant in the pantethine-excess group even by a high dose of AL. Particularly, in the high dose of AL, the notable decreases of oleic acid (C18:1) contents in both the liver and the S-9 fraction were observed in rats of the pantethine-deficient and -adequate groups. The thiobarbituric acid (TBA) values in the liver homogenate and the S-9 fraction were increased correspondingly by increasing dose levels of AL, and the increases were repressed in the pantethine-excess group.

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The effects of dietary pantethine levels on the drug-metabolizing system were investigated under administration of varying amounts of autoxidized linoleate (AL) with rat liver microsomes and S-9 fractions. AL having 800 meq/kg of peroxide value and 1,700 meq/kg of carbonyl value was dosed to the rats of each group given drinking water containing 0 mg% (deficient), 6.25 mg% (normal), and 125 mg% pantethine (sufficient). The contents and activities of the enzymes in the drug-metabolizing system in the rat liver of each pantethine-level group changed essentially in a similar manner, that is, they were induced at an AL daily dose of 0.2 ml/100 g body weight (i.e., small dose) for 5 successive days and lowered at a daily dose of 0.4 ml/100 g body weight (i.e., large dose) by the same administration period, compared with respective non-AL groups in each of the three pantethine levels. In both non-AL and the small-dose AL, enzyme activities of the electron transfer system in rat liver microsomes, aminopyrine-N-demethylase activity, and metabolic activation of 2-acetylaminofluorene in S-9 fractions were significantly higher in the pantethine-deficient group than in the pantethine-normal and -sufficient groups. In the large-dose AL, the enzyme activities in the drug-metabolizing system decreased significantly in any pantethine levels, though the survival rate of the rats was higher in the pantethine-sufficient group than in the pantethine-normal groups. The results suggest that the pantethine relieves the effect of dosed AL on the drug-metabolizing system in rat liver.

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In order to find the markers of the toxicity of the autoxidized lipids in the liver, rats were given a lethal amount of secondary autoxidation products of linoleic acid (400 mg/rat/day for 3 days) and then changes in the hepatic metabolic functions were analyzed. A decrease in acetyl-CoA level to half caused by the depletion of CoASH was reported in an associated paper (J. Nutr. Sci. Vitaminol., 35, 11-23, 1989). Citrate, isocitrate, and 2-oxoglutarate also decreased to half the level of those of the control group. Reduction in isocitrate dehydrogenase activity was only 25%, while NADH2 and ATP levels remained unchanged. Thus, the reduction in the citrate cycle activity was due to the decrease in acetyl-CoA. The activity of mitochondrial succinate dehydrogenase was decreased to 1/5. Other appreciable changes were depletion of glucose 6-phosphate and fructose 6-phosphate, accumulation of glucose 1-phosphate, reductions in hexokinase, phosphofructokinase, glucose-6-phosphatase, phosphoglucomutase, and phosphogluconate dehydrogenase activities, and decrease in the NADPH2 level. It was considered that these changes were caused by the depletion of glucose 6-phosphate whose synthetic pathways were abnormal. Therefore, the markers of the hepatotoxicity of secondary products were the changes in the CoASH level and the activities of succinate dehydrogenase and synthetic pathways for glucose 6-phosphate.

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When 400 mg/rat/day of secondary autoxidation products of linoleic acid was orally administered 3 times to rats, they died at 30-40 h after the third dose. To search the markers of the toxicity of secondary products in vivo, the rats were killed at 24h after the third dose, and conditions of their digestive tracts and liver were analyzed. In the stomach, macroscopically, inflation, retention of undigested food, and edema were seen. Slight congestions were detected in the small intestines. It was considered that these injuries led to reduction in food consumption and then depression of the growth, but did not lead to the death of the animals. The lipid peroxide levels in the liver and the activities of its detoxifying enzymes were increased as compared to those in the control groups. The hepatic lipid contents and unsaturated fatty acid compositions were also not changed. The endogenous lipid peroxidation, therefore, did not give the rats a severe stress. The activities of hepatic acetyl-CoA carboxylase and carnitine palmitoyltransferase were 20 and 35% lower than those of control, respectively. The levels of CoASH, acetyl-CoA, and long-chain acyl-CoA were 1/9, 1/2, and 1/4 of those in control, respectively. Thus, one of the markers of the toxicity of secondary products was the depletion of hepatic CoA derivatives. In rat, bio-energy was reduced by the decrease in the intestinal absorption of nutrients, and the depletion of hepatic CoA derivatives also failed to supply energy with beta-oxidation.

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The reaction products from L-tryptophan treated with nitrite under acidic conditions were investigated for mutagenic activity with the Salmonella typhimurium his reversion assay and for DNA-damaging activity using the rec-assay. The diethyl ether extract of the reaction mixture showed 8 spots on thin-layer chromatography (TLC). One compound from the TLC had high mutagenic activity for TA98 without S9 mix, with little DNA-damaging activity. The mutagen was purified and identified by instrumental analysis as 2-hydroxy-(1-N-nitrosoindole)propionic acid (NIHP). The mutagenic activity of NIHP was determined by the induced mutation frequency method; the induced mutation frequency was about 19.2 X 10(-5) at a dose level of 160 micrograms/plate.

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Linoleic acid and its autoxidation products, hydroperoxides and their secondary products, were orally administered to rats (350 mg each/rat). Hemorrhage was seen in the alimentary canal at 6 h after the dose of hydroperoxides. To examine their toxicities on intestinal mucosa, the activities of mucous enzymes (sucrase, maltase, and alkaline phosphatase) were measured. Hydroperoxides and their secondary products decreased the enzyme activities in jejunum at 6 h after the doses and increased them in both jejunum and ileum at 15 h, as compared to linoleic acid or saline solution. The decrease of enzyme activity was marked in the hydroperoxide group and the increase was marked in the secondary product group. Then, in in vitro experiments, the effects of autoxidation products on these enzymes were determined. Autoxidation products inactivated only alkaline phosphatase. Thus, the results in vivo disagreed with those in vitro. It was assumed that autoxidation products orally administered attacked a membrane of intestinal microvilli whereas in vitro they directly affected the enzymes.

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Autoxidized linoleic acid (AL) having 800 meq/kg of peroxide value and 1,700 meq/kg of carbonyl value was given in repeated oral doses at a daily dose of 0 (control)--7.5 ml/kg to male Wistar rats for 5 successive days. The effect of increasing AL dose on the drug-metabolizing system was investigated in rat liver microsomes and S-9 fractions. All the rats of a daily dose of 5.0-7.5 ml/kg died after the third day of consecutive oral doses. The cytochrome P-450 and b5 contents, enzyme activities in electron transfer system, aminopyrin-N-demethylase activity and S-9 activity (metabolic activation of 2-acetylaminofluorene) in the drug-metabolizing system changed essentially in a similar manner, that is, both the contents and the activities were increased by a small dose of AL, and were decreased by a large dose of AL. These results strongly supported the findings in a previous report wherein we observed the periodical effect of AL dose on the drug-metabolizing system.

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9-Oxononanoic acid, which is one of the major products of the autoxidation of linoleic acid, was administered orally to rats and its effect on hepatic lipid metabolism was investigated. The de novo synthesis of fatty acids was strongly reduced 30 h after the administration of 100 mg of 9-oxononanoic acid as compared to that in the saline-administered group. Activity of acetyl-CoA carboxylase decreased by 60% and the activity of carnitine palmitoyltransferase increased by 35% in the test group. The level of triacylglycerols in serum was low and the level of free fatty acids remained unchanged. Thus, the administration of 9-oxononanoic acid decreased hepatic lipogenesis. It is generally believed that the reduction in lipogenesis is facilitated by a decrease in the NADPH level. The ratio of NADPH/NADP in the test group, however, became high as compared to that in the control group, and the activities of glucose 6-phosphate and isocitrate dehydrogenases increased. On the other hand, the levels of CoA derivatives, especially long-chain acyl-CoA, were higher in the test group than in the control. Therefore, the reduction of hepatic lipogenesis in the 9-oxononanoic acid group could be attributed to the inhibition of acetyl-CoA carboxylase by the accumulated long-chain acyl-CoA.

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The effects of orally administered secondary autoxidation products of linoleic acid in rat liver were investigated. Their administration led to two toxic effects on hepatic carbohydrate metabolism, as compared to the administration of saline or linoleic acid used as controls. One effect was depletion of glucose 6-phosphate and fructose 6-phosphate caused by the reduction of glycolysis and glycogenolysis, accompanied by decreases in glycogen synthesis and pentose phosphate cyclic activity. The reduction in these metabolic systems seems unlikely to occur because phosphofructokinase was regulated by ATP or citrate enzymatically, because their accumulation in the liver was not detected in the secondary products. Another toxic effect was the depletion of oxaloacetate and isocitrate caused by the reduction in enzyme activity of the mitochondrial citrate cycle. On the basis of these results, the hepatotoxic effects of secondary products are discussed as follows: the incorporated secondary products impaired the activities of hexokinase and phosphoglucomutase in the liver. The reduction in these enzyme activities resulted in the depletion of glucose 6-phosphate and fructose 6-phosphate, which led ultimately to decreases in the activities of phosphofructokinase, the pentose phosphate cycle, and glycogen synthesis. Moreover, the secondary products disturbed the mitochondrial membrane, resulting in a decrease in the activity of the citrate cycle, which was accompanied by depletion of its metabolites.

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Autoxidized linoleic acid (AL) having 800 meq/kg of peroxide value and 1,700 meq/kg of carbonyl value was given in repeated oral doses for 1-15 days at a daily dose of 2.5 ml/kg to male Wistar rats. During the administration, the effect of AL on drug-metabolizing activity was investigated periodically in liver microsomes. The contents of cytochrome P-450 and b5 were increased by consecutive oral doses for 3-7 days. Thereafter, the amount of cytochrome P-450 decreased gradually, but the b5 decreased slightly. Thus, after administration for 11-15 days, the cytochrome P-450 content was significantly lower but the cytochrome b5 content was rather high in comparison with the control group. The aminopyrine-N-demethylase activity was not reduced even after repeated oral doses of AL for 15 days. The activation of 2-acetyl amino fluorene (2-AAF), which the authors termed S-9 activity, gradually decreased during administration for more than 3 days, and completely disappeared after administration for 9 days.

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The reaction products from butylated hydroxyanisole treated with nitrite under acidic conditions were investigated for mutagenic activity in Salmonella typhimurium his reversion assay and for DNA-damaging activity using H17 Rec+ (wild) and M45 Rec- (recombinationless) of Bacillus subtilis. The chloroform extract of the reaction mixture showed 9 spots on thin-layer chromatography (TLC). Compounds from 2 spots on the TLC had high mutagenic activity in TA100 without S9 mix, with DNA-damaging activity. The 2 mutagens were then crystallized from the reaction mixture and identified to be 2-tert.-butyl-p-quinone (t-BQ) and the dimer of t-BQ; 3,3'-di-tert.-butyl-biphenyldiquinone-(2,5,2',5') (BBDQ), from their instrumental analysis. The mutagenic activities of t-BQ and BBDQ were determined by Ames test, and the induced mutation frequencies were about 1.9 X 10(-4) (t-BQ) and 8.3 X 10(-5) (BBDQ).

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Radioactive secondary autoxidation products of linoleic acid were administered orally to rats and the incorporation of radioactive substances into lipids was investigated in the liver. The radioactive substances were significantly incorporated into hepatic mitochondrial and microsomal lipids 12 h after the administration. 80% of the radioactivity in mitochondria was detected in neutral lipids. The radioactivity in microsomal neutral lipids significantly decreased and the activity in phospholipids increased 12 h after the administration. On the other hand, contents of lipid peroxide and thiobarbituric acid reactive substances in liver were significantly increased by 40% at 15 h after the administration of the secondary autoxidation products. Activity of marker enzymes used for an indication of the hepatic injury was also elevated. Glutathione peroxidase activity increased 3-fold and catalase activity increased 1.5-fold. Activity of mitochondrial NAD-dependent aldehyde dehydrogenase, however, was decreased by 50%. It seems likely that the secondary autoxidation products orally administered are detoxified in the hepatic mitochondria, metabolized to neutral lipids, and further metabolized to phospholipids in microsomes, while as the incorporated secondary autoxidation products induces hepatic injury by lipid peroxidation.

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Casein and egg albumin were reacted with nitrite at pH 3. The reaction mixtures containing nitrite yellowed when the reaction began; after 24 hours of reaction with 7.5 X 10(-3) M nitrite, about 70% of added casein was sedimented as yellow precipitate. There was a considerable loss of lysine, arginine, tyrosine, and tryptophan residues. This was determined from the amino acid compositions of the proteins obtained by the reaction with 2.5 X 10(-2) M nitrite at pH 3 for 48 hours. An amino acid elution pattern of the treated casein showed five peaks due to new amino acids; three of these were provisionally identified to be cysteic acid, methionine sulfone, and 3-nitrotyrosine.

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Incorporation of secondary autoxidation products (SP) of linoleic acid into the rat body was investigated. Radioactive SP was administered orally to a group of 5 rats, and excretions of radioactive substances in feces, urine and respiration were measured and compared with excretions from rats fed linoleic acid and its hydroperoxides. The SP-fed group excreted 45% and the other groups about 10% of the administered radioactivity through feces. Urinary excretion accounted for 52% of activity ingested in the SP group and less than 30% in the other groups. The 14CO2 produced in each group was about 25% of the ingested activity. Incorporation of the radioactive substances of SP into tissues and organs was measured periodically after administration of a single dose. The radioactive substances accumulated in the liver between 12-24 hr after administration and accounted for 2.6% of the total amount given, the highest level of all tissues and organs. This accumulation led to an elevation of serum transaminase activities, an increase in hepatic lipid peroxide, as determined by thiobarbituric acid test, and a slight hypertrophy of liver (1.5-fold). Therefore, absorbed SP appeared to contribute to the deleterious condition of the liver.

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It was confirmed by the procedure of rec-assay that DNA-damaging activities were formed in the reaction systems containing nitrite and phenol derivatives including BHA, tryptophan or cysteine under gastric pH conditions. The mutagenic action of the nitrite-BHA, nitrite-tryptophan and nitrite-cysteine systems was also tested according to Ames' method using Salmonella typhimurium TA 1535 and TA 98. The mutagenic activity was observed in the nitrite-tryptophan and nitrite-cysteine systems, though the nitrite-BHA system did not show the activity. The DNA-damaging products were generally labile, i.e., the activity decreased significantly after 1.5 to 2 hours of the reaction, except in the case of the nitrite-BHA system. The DNA-damaging activity in the nitrite-BHA system did not decrease even after 48 hours of the reaction. Nitrosophenol derivatives themselves showed the DNA-damaging activity at pH 1. The active product in the nitrite-BHA system was isolated and the structure was determined to be 2-tert-butyl-quinone. This compound gave a positive rec-assay test, and showed no mutagenesis by Ames' method. The active product from the nitrite-cysteine system was infered to be nitrosocysteine, and the product showed both DNA-damaging and mutagenic activity.

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Autoxidized LA is classified into four groups, LA, LAHPO, SP and FP. Lysozyme is inactivated by these products in the increasing order as follows: FP less than LA less than LAHPO less than SP. The effects of these products on the amino acid composition of lysozyme is examined. All kinds of amino acid residues were not damaged until lysozyme was incubated with LA and LAHPO at 45 degrees C for 100 days. The susceptible amino acid residues attacked by the autoxidized products are tryptophan, lysine and histidine. The specific loss of methionine by SP occurs during acid-hydrolysis. The effect of SP was the strongest among the autoxidized products. FP was almost noneffective. The destructive actions of BP, MA and PA were compared with those of autoxidized products. Effects of these compounds did not resemble those of autoxidized products. It was concluded that tryptophan, lysine and histidine residues were specifically attacked by SP.

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