Your search keyword '"N. Osakabe"' showing total 14 results

1. Activation of transient receptor potential channels is involved in reactive oxygen species (ROS)-dependent regulation of blood flow by (-)-epicatechin tetramer cinnamtannin A2.

Author

Fushimi T, Hirahata C, Hiroki K, Fujii Y, Calabrese V, Suhara Y, and Osakabe N

Subjects

Rats, Animals, Reactive Oxygen Species metabolism, Hemodynamics, Transient Receptor Potential Channels metabolism, Proanthocyanidins chemistry, Catechin chemistry

Abstract

Intervention trials confirmed that blood flow-mediated dilatation increases significantly after intake of astringent (-)-epicatechin (EC) oligomers (procyanidins)-rich foods, but the mechanism remains unclear. We have previously found that procyanidins can activate the sympathetic nervous and subsequently increase blood flow. Here, we examined whether procyanidin-derived reactive oxygen species (ROS) activate transient receptor potential (TRP) channels in gastrointestinal sensory nerves and consequently induce sympathoexcitation. We evaluated the redox properties of EC and its tetramer cinntamtannin A2 (A2) at pH 5 or 7, mimicking plant vacuole or oral cavity/small intestine using a luminescent probe. At pH 5, A2 or EC showed O 2 ·- generation at pH 7. We observed blood flow in rat cremaster arterioles using laser Doppler, a single oral dose of 10 µg/kg A2 markedly increased blood flow, while EC showed little activity. This change with A2 was significantly dampened by co-administration of adrenaline blocker, ROS scavenger N-acetyl-L-cysteine (NAC), TRP vanilloid 1, or ankyrin 1 antagonist. We also performed a docking simulation of EC or A2 with the binding site of a typical ligand for each TRP channel and calculated the respective binding affinities. The binding energies were notably higher for A2 than typical ligands, suggesting that A2 is less likely to bind to these sites. ROS produced at neutral pH following the orally administered A2 to the gastrointestinal tract could activate TRP channels, triggering sympathetic hyperactivation and causing hemodynamic changes.2 ·- generation at pH 7. We observed blood flow in rat cremaster arterioles using laser Doppler, a single oral dose of 10 µg/kg A2 markedly increased blood flow, while EC showed little activity. This change with A2 was significantly dampened by co-administration of adrenaline blocker, ROS scavenger N-acetyl-L-cysteine (NAC), TRP vanilloid 1, or ankyrin 1 antagonist. We also performed a docking simulation of EC or A2 with the binding site of a typical ligand for each TRP channel and calculated the respective binding affinities. The binding energies were notably higher for A2 than typical ligands, suggesting that A2 is less likely to bind to these sites. ROS produced at neutral pH following the orally administered A2 to the gastrointestinal tract could activate TRP channels, triggering sympathetic hyperactivation and causing hemodynamic changes., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Inc. All rights reserved.)

Published

2023

2. Impact of short-term oral dose of cinnamtannin A2, an (-)-epicatechin tetramer, on spatial memory and adult hippocampal neurogenesis in mouse.

Author

Fujii Y, Sakata J, Sato F, Onishi K, Yamato Y, Sakata K, Taira S, Sato H, and Osakabe N

Subjects

Administration, Oral, Animals, Anthocyanins administration & dosage, Anthocyanins chemistry, Bromodeoxyuridine metabolism, Catechin administration & dosage, Catechin chemistry, Dentate Gyrus cytology, Dentate Gyrus metabolism, Exploratory Behavior drug effects, Exploratory Behavior physiology, Hippocampus cytology, Hippocampus physiology, Mice, Inbred C57BL, Molecular Structure, Motor Activity drug effects, Motor Activity physiology, Spatial Memory physiology, Time Factors, Mice, Anthocyanins pharmacology, Catechin pharmacology, Hippocampus drug effects, Neurogenesis drug effects, Spatial Memory drug effects

Abstract

Recent epidemiological and intervention studies have suggested that polyphenol-rich plant food consumption reduced the risk of cognitive decline. However, the findings were tentative and by no means definitive. In the present study, we examined the impact of short-term oral administration of cinnamtannin A2 (A2), an (-)-epicatechin tetramer, on adult hippocampal neurogenesis and cognitive function in mice. Mice received supplementation with vehicle (20% glycerol) or 100 μg/kg A2 for 10 days. Then, we conducted the open field test, the object location test, and the novel object test. In the open field test, the A2-treated group tended to spend more time in the center of the arena, compared to the vehicle-treated group. The A2-treated group spent significantly more time exploring objects placed in different locations, compared to the vehicle-treated group. There were no significant differences between groups in the object preference index or in the novel object test. In addition, A2 administration significantly increased the number of hippocampal bromodeoxyuridine-labeled cells in the dentate gyrus, but not in the CA1 or CA3 regions. These results suggested that short-term administration of A2 may impact spatial memory by enhancing neurogenesis in the dentate gyrus of adult mice., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published

2021

3. Separationless and Adsorptionless Quantification of Individual Catechins in Green Tea with a Carbon Nanotube-Carboxymethylcellulose Electrode.

Author

Muguruma H, Murakami S, Takahashi S, Osakabe N, Inoue H, and Ohsawa T

Subjects

Adsorption, Carboxymethylcellulose Sodium chemistry, Chromatography, High Pressure Liquid, Electrochemical Techniques instrumentation, Electrodes, Camellia sinensis chemistry, Catechin chemistry, Catechin isolation & purification, Electrochemical Techniques methods, Nanotubes, Carbon chemistry, Plant Extracts chemistry, Plant Extracts isolation & purification, Tea chemistry

Abstract

We demonstrate the electrochemical quantification of individual catechins (epicatechin, EC; epigallocatechin, EGC; epicatechingallate, ECG; and epigallocatechingallate, EGCG) in a green tea infusion without a separation process nor any adsorption complication. In the detection of catechins, long-length carbon nanotube (CNT)-carboxymethylcellulose (CMC) thin-film electrodes have attractive properties, such as well-defined current peaks, high reproducibility from sample to sample, high repeatability, and low background current. Cyclic voltammograms (CVs) for real green tea, which is mainly composed of a mixture of the four catechins, are produced by the sum of those catechins. A set of three specific peaks in the CVs of the real green tea samples, as catechin-mixture solutions, was used for quantification of the individual catechins. The CVs of the real samples are similar to the CVs of intentionally prepared mixture solutions with the catechin-component ratios determined by high-performance liquid chromatography (HPLC). The values for the real samples determined from the CVs show good agreement with those obtained by HPLC. The novelty of the work is the demonstration of the usefulness of the CNT-CMC electrode and the separationless quantification of individual catechins in green tea for the first time.

Published

2019

4. Substitution at the C-3 Position of Catechins Has an Influence on the Binding Affinities against Serum Albumin.

Author

Ikeda M, Ueda-Wakagi M, Hayashibara K, Kitano R, Kawase M, Kaihatsu K, Kato N, Suhara Y, Osakabe N, and Ashida H

Subjects

Animals, Catechin analogs & derivatives, Catechin metabolism, Cattle, Humans, Models, Molecular, Molecular Conformation, Protein Binding, Serum Albumin metabolism, Serum Albumin, Bovine chemistry, Catechin chemistry, Serum Albumin chemistry

Abstract

It is known that catechins interact with the tryptophan (Trp) residue at the drug-binding site of serum albumin. In this study, we used catechin derivatives to investigate which position of the catechin structure strongly influences the binding affinity against bovine serum albumin (BSA) and human serum albumin (HSA). A docking simulation showed that (-)-epigallocatechin gallate (EGCg) interacted with both Trp residues of BSA (one at drug-binding site I and the other on the molecular surface), mainly by π-π stacking. Fluorescence analysis showed that EGCg and substituted EGCg caused a red shift of the peak wavelength of Trp similarly to warfarin (a drug-binding site I-specific compound), while 3- O -acyl-catechins caused a blue shift. To evaluate the binding affinities, the quenching constants were determined by the Stern-Volmer equation. A gallate ester at the C-3 position increased the quenching constants of the catechins. Against BSA, acyl substitution increased the quenching constant proportionally to the carbon chain lengths of the acyl group, whereas methyl substitution decreased the quenching constant. Against HSA, neither acyl nor methyl substitution affected the quenching constant. In conclusion, substitution at the C-3 position of catechins has an important influence on the binding affinity against serum albumin.

Published

2017

5. The impact of theaflavins on systemic-and microcirculation alterations: The murine and randomized feasibility trials.

Author

Saito A, Nakazato R, Suhara Y, Shibata M, Fukui T, Ishii T, Asanuma T, Mochizuki K, Nakayama T, and Osakabe N

Subjects

Adult, Animals, Biflavonoids adverse effects, Biflavonoids chemistry, Camellia sinensis chemistry, Cardiovascular Diseases physiopathology, Catechin adverse effects, Catechin chemistry, Cross-Over Studies, Double-Blind Method, Feasibility Studies, Female, Glycosides adverse effects, Glycosides chemistry, Humans, Male, Mice, Middle Aged, Pilot Projects, Plant Leaves chemistry, Rats, Wistar, Reproducibility of Results, Young Adult, Biflavonoids therapeutic use, Blood Circulation, Cardiovascular Diseases prevention & control, Catechin therapeutic use, Dietary Supplements adverse effects, Glycosides therapeutic use, Microcirculation

Abstract

Theaflavins are polyphenols found in black tea; their physiological activities were not well investigated. The present study in rats evaluated the influence of theaflavins on circulation. In addition, an intervention pilot study examined the influence of a theaflavin drink on postprandial hemodynamic change. In an animal study, a single oral dose of theaflavin rich fraction (TF, 10mg/kg) caused transient increase in mean blood pressure (MBP) and heart rate (HR). TF also elevated cremastric blood flow significantly, and the magnitude of this effect was in this order: theaflavin 3'-O-gallate (TF2B) >>theaflavin-3-O-gallate (TF2A) >>theaflavin (TF1)=theaflavin-3, 3'-di-O-gallate (TF3). In addition, these hemodynamic alterations in mammals totally disappeared when pretreated with carvedilol as an adrenaline blocker. We also treated 10-mg/kg/day TF to the rats for 2 weeks. At the end of the ingestion period, MBP was reduced significantly, and aortic eNOS level was elevated by the repeated ingestion of TF compared with distilled water. In the intervention trial, blood pressure of the volunteers was increased significantly 2 and 4h after ingestion of the TF drink (45mg/drink) compared with before treatment. A significant difference was observed in FMD between the placebo and theaflavin groups 4h after ingestion. These results suggested that theaflavin has potent activity to alter hemodynamics in both murine and healthy subjects. Further studies is needed to elucidate the details; however, the results of animal study suggested that the possible involvement of sympathetic nervous system in the hemodynamic changes caused by TF., (Copyright © 2016 Elsevier Inc. All rights reserved.)

Published

2016

6. A Single Oral Administration of Theaflavins Increases Energy Expenditure and the Expression of Metabolic Genes.

Author

Kudo N, Arai Y, Suhara Y, Ishii T, Nakayama T, and Osakabe N

Subjects

Adipose Tissue, Brown cytology, Adipose Tissue, Brown drug effects, Administration, Oral, Animals, Antioxidants metabolism, Biflavonoids pharmacology, Blotting, Western, Catechin pharmacology, Male, Mice, Mice, Inbred ICR, Oxygen Consumption drug effects, Phosphorylation drug effects, RNA, Messenger genetics, Real-Time Polymerase Chain Reaction, Reverse Transcriptase Polymerase Chain Reaction, Adipose Tissue, Brown metabolism, Biflavonoids administration & dosage, Biomarkers metabolism, Catechin administration & dosage, Energy Metabolism drug effects

Abstract

Theaflavins are polyphenols found in black tea, whose physiological activities are not well understood. This study on mice evaluated the influence of a single oral administration of theaflavins on energy metabolism by monitoring the initial metabolic changess in skeletal muscle and brown adipose tissue (BAT). Oxygen consumption (VO2) and energy expenditure (EE) were increased significantly in mice treated with theaflavin rich fraction (TF) compared with the group administered vehicle alone. There was no difference in locomotor activity. Fasting mice were euthanized under anesthesia before and 2 and 5, 20-hr after treatment with TF or vehicle. The mRNA levels of uncoupling protein-1 (UCP-1) and peroxisome proliferator-activated receptor gamma coactivator-1α (PGC-1α) in BAT were increased significantly 2-hr after administration ofTF. The levels of UCP-3 and PGC-1α in the gastrocnemius muscle were increased significantly 2 and 5-hr after administration of TF. The concentration of phosphorylated AMP-activated protein kinase (AMPK) 1α was also increased significantly in the gastrocnemius 2 and 5-hr after treatment with TF. These results indicate that TF significantly enhances systemic energy expenditure, as evidenced by an increase in expression of metabolic genes.

Published

2015

7. In vitro antioxidative activity of (-)-epicatechin glucuronide metabolites present in human and rat plasma.

Author

Natsume M, Osakabe N, Yasuda A, Baba S, Tokunaga T, Kondo K, Osawa T, and Terao J

Subjects

Animals, Antioxidants chemistry, Azo Compounds antagonists & inhibitors, Free Radical Scavengers chemistry, Free Radical Scavengers pharmacology, Glucuronates chemistry, Humans, Lipoproteins, LDL chemistry, Molecular Structure, Nitriles antagonists & inhibitors, Oxidants antagonists & inhibitors, Oxidation-Reduction drug effects, Rats, Superoxides chemistry, Thiobarbituric Acid Reactive Substances chemistry, Antioxidants pharmacology, Catechin analogs & derivatives, Catechin blood, Catechin pharmacology, Glucuronates blood, Glucuronates pharmacology

Abstract

Recently we identified four conjugated glucuronide metabolites of epicatechin, (-)-epicatechin-3'-O-glucuronide (E3'G), 4'-O-methyl-(-)-epicatechin-3'-O-glucuronide (4'ME3'G), (-)-epicatechin-7-O-glucuronide (E7G) and 3'-O-methyl-(-)-epicatechin-7-O-glucuronide (3'ME7G) from plasma and urine. E3'G and 4'ME3'G were isolated from human urine, while E7G and 3'ME7G were isolated from rats that had received oral administration of (-)-epicatechin (Natsume et al. (2003), Free Radic. Biol. Med. 34,840-849). It has been suggested that these metabolites possess considerable in vivo activity, and therefore we carried out a study to compare the antioxidant activities of the metabolites with that of the parent compound. This was achieved by measuring superoxide scavenging activity, reduction of plasma TBARS production and reduced susceptibility of low-density-lipoprotein (LDL) to oxidation. (-)-Epicatechin was found to have more potent antioxidant activity than the conjugated glucuronide metabolites. Both (-)-epicatechin and E7G had marked antioxidative properties with respect to superoxide radical scavenging activity, plasma oxidation induced by 2,2'-azobis-(2-aminopropane) dihydrochloride (AAPH) and LDL oxidation induced by copper ions or 2,2'-azobis(4-methoxy-2,4-dimethylvaleronitrile) (MeO-AMVN). In contrast, the other metabolites had light antioxidative activities over the range of physiological concentrations found in plasma.

Published

2004

8. Structures of (-)-epicatechin glucuronide identified from plasma and urine after oral ingestion of (-)-epicatechin: differences between human and rat.

Author

Natsume M, Osakabe N, Oyama M, Sasaki M, Baba S, Nakamura Y, Osawa T, and Terao J

Subjects

Administration, Oral, Adult, Animals, Catechin analogs & derivatives, Chromatography, High Pressure Liquid, Female, Free Radicals, Gas Chromatography-Mass Spectrometry, Humans, Magnetic Resonance Spectroscopy, Male, Models, Chemical, Rats, Rats, Sprague-Dawley, Species Specificity, Time Factors, Catechin administration & dosage, Catechin blood, Catechin chemistry, Catechin urine, Glucuronates blood, Glucuronates chemistry, Glucuronates urine, Glucuronic Acid blood, Glucuronic Acid chemistry, Glucuronic Acid urine

Abstract

(-)-epicatechin is one of the most potent antioxidants present in the human diet. Particularly high levels are found in black tea, apples, and chocolate. High intake of catechins has been associated with reduced risk of cardiovascular diseases. There have been several reports concerning the bioavailability of catechins, however, the chemical structure of (-)-epicatechin metabolites in blood, tissues, and urine remains unclear. In the present study, we purified and elucidated the chemical structure of (-)-epicatechin metabolites in human and rat urine after oral administration. Three metabolites were purified from human urine including (-)-epicatechin-3'-O-glucuronide, 4'-O-methyl-(-)-epicatechin-3'-O-glucuronide, and 4'-O-methyl-(-)-epicatechin-5 or 7-O-glucuronide, according to 1H- and 13C-NMR, HMBC, and LC-MS analyses. The metabolites purified from rat urine were 3'-O-methyl-(-)-epicatechin, (-)-epicatechin-7-O-glucuronide, and 3'-O-methyl-(-)-epicatechin-7-O-glucuronide. These compounds were also detected in the blood of humans and rats by LC-MS. The presence of these metabolites in blood and urine suggests that catechins are metabolized and circulated in the body after administration of catechin-containing foods.

Published

2003

9. Absorption and urinary excretion of procyanidin B2 [epicatechin-(4beta-8)-epicatechin] in rats.

Author

Baba S, Osakabe N, Natsume M, and Terao J

Subjects

Administration, Oral, Animals, Biological Availability, Catechin urine, Chromatography, High Pressure Liquid, Copper Sulfate pharmacology, Intestinal Absorption, Lipid Peroxides metabolism, Male, Mass Spectrometry, Rats, Rats, Sprague-Dawley, Antioxidants pharmacokinetics, Biflavonoids, Catechin pharmacokinetics, Proanthocyanidins

Abstract

We evaluated the bioavailability and plasma antioxidative activity after administration of procyanidin B2 [epicatechin-(4beta-8)-epicatechin] in rats. After procyanidin B2 administration, procyanidin B2 is absorbed and excreted in urine, and a portion of the PB2 is degraded to (-)-epicatechin and to the metabolized conjugated and/or methylated (-)-epicatechin internally in the rat. Moreover, PB2 reduces the accumulation of lipid peroxide in plasma oxidized by copper ions.

Published

2002

10. Catechins and their oligomers linked by C4 --> C8 bonds are major cacao polyphenols and protect low-density lipoprotein from oxidation in vitro.

Author

Osakabe N, Yasuda A, Natsume M, Takizawa T, Terao J, and Kondo K

Subjects

Arteriosclerosis metabolism, Arteriosclerosis prevention & control, Azo Compounds pharmacology, Cacao, Humans, In Vitro Techniques, Nitriles pharmacology, Oxidants pharmacology, Oxidation-Reduction drug effects, Phytotherapy, Plant Preparations pharmacology, Anthocyanins pharmacology, Antioxidants pharmacology, Biflavonoids, Catechin pharmacology, Lipoproteins, LDL metabolism, Proanthocyanidins

Abstract

In vitro effects of catechins and their oligomers linked by C4 --> C8 bonds are major antioxidative components of chocolate and cocoa. Their effects on the susceptibility of human low-density lipoprotein (LDL) to oxidation were evaluated. The strength of the antioxidative activity was measured using copper ions as the radical generator as compared by weight varied in the following order: (+)-catechin > procyanidin B2 > or = (-)-epicatechin > or = procyanidin C1 > cinnamtannin A2. Using 2,2'-azobis (4-methoxy-2,4-dimethylvaleronitrile) (MeO-AMVN) as the radical generator, the order was (-)-epicatechin > or = procyanidin B2 > or = procyanidin C1 > (+)-catechin > or = cinnamtannin A2. It is suggested that these compounds contribute to the activity of cacao products to protect LDL from oxidation.

Published

2002

11. Absorption and urinary excretion of (-)-epicatechin after administration of different levels of cocoa powder or (-)-epicatechin in rats.

Author

Baba S, Osakabe N, Natsume M, Muto Y, Takizawa T, and Terao J

Subjects

Animals, Catechin analogs & derivatives, Catechin urine, Chromatography, High Pressure Liquid, Intestinal Absorption, Lipid Peroxides blood, Male, Mass Spectrometry, Oxidation-Reduction, Rats, Rats, Sprague-Dawley, Cacao chemistry, Catechin metabolism

Abstract

(-)-Epicatechin is a major polyphenol component of cocoa powder. The absorption and urinary excretion of (-)-epicatechin following administration of different levels of either cocoa powder (150, 750, and 1500 mg/kg) or (-)-epicatechin (1, 5, and 10 mg/kg) were evaluated in rats. Both the sum of plasma (-)-epicatechin metabolites at 1 h postadministration and peak plasma concentrations increased in a dose-dependent fashion. The sum of (-)-epicatechin metabolites in urine, excreted within 18 h postadministration, also increased with dose. Moreover, the sum of (-)-epicatechin metabolites excreted in urine reached the same level in both (-)-epicatechin and cocoa powder administration groups for equivalent amounts of (-)-epicatechin. These results suggest that, in the dose range examined in this study, bioavailability of (-)-epicatechin following administration of either (-)-epicatechin or cocoa powder shows dose dependence and that the various compounds present in cocoa powder have little effect on the bioavailability of (-)-epicatechin in cocoa powder.

Published

2001

12. In vivo comparison of the bioavailability of (+)-catechin, (-)-epicatechin and their mixture in orally administered rats.

Author

Baba S, Osakabe N, Natsume M, Muto Y, Takizawa T, and Terao J

Subjects

Administration, Oral, Animals, Area Under Curve, Biological Availability, Catechin metabolism, Catechin urine, Chromatography, High Pressure Liquid, Chromatography, Liquid, Intestinal Absorption, Male, Methylation, Rats, Rats, Sprague-Dawley, Stereoisomerism, Catechin pharmacokinetics

Abstract

We compared levels of (+)-catechin, (-)-epicatechin, and their metabolites in rat plasma and urine after oral administration. Rats were divided into four groups and given (+)-catechin (CA group), (-)-epicatechin (EC group), a mixture of the two (MIX group) or deionized water. Blood samples were collected before administration and at designated time intervals thereafter. Urine samples were collected 0-24 h postadministration. (+)-Catechin, (-)-epicatechin and their metabolites in plasma and urine were analyzed by HPLC-mass spectrometry after treatment with beta-glucuronidase and/or sulfatase. After administration, absorbed (+)-catechin and (-)-epicatechin were mainly present in plasma as metabolites, such as nonmethylated or 3'-O-methylated conjugates. In the CA and MIX groups, the primary metabolite of (+)-catechin in plasma was glucuronide in the nonmethylated form. In the EC and MIX groups, in contrast, the primary metabolites of (-)-epicatechin in plasma were glucuronide and sulfoglucuronide in nonmethylated forms, and sulfate in the 3'-O-methylated forms. Urinary excretion of the total amount of (-)-epicatechin metabolites in the EC group was significantly higher than the amount of (+)-catechin metabolites in the CA group. The sum of (+)-catechin metabolites in the urine was significantly lower in the MIX group than in the CA group, and the sum of (-)-epicatechin metabolites in the MIX group was also significantly lower than in the EC group. These results suggest that the bioavailability of (-)-epicatechin is higher than that of (+)-catechin in rats, and that, in combination, (+)-catechin and (-)-epicatechin might be absorbed competitively in the gastrointestinal tract of rats.

Published

2001

13. Bioavailability of (-)-epicatechin upon intake of chocolate and cocoa in human volunteers.

Author

Baba S, Osakabe N, Yasuda A, Natsume M, Takizawa T, Nakamura T, and Terao J

Subjects

Adult, Biological Availability, Catechin blood, Catechin urine, Chromatography, High Pressure Liquid, Chromatography, Liquid, Humans, Intestinal Absorption, Male, Mass Spectrometry, Methylation, Cacao, Catechin pharmacokinetics

Abstract

We evaluated the levels of (-)-epicatechin (EC) and its metabolites in plasma and urine after intake of chocolate or cocoa by male volunteers. EC metabolites were analyzed by HPLC and LC/MS after glucuronidase and/or sulfatase treatment. The maximum levels of total EC metabolites in plasma were reached 2 hours after either chocolate or cocoa intake. Sulfate, glucuronide, and sulfoglucuronide (mixture of sulfate and glucuronide) conjugates of nonmethylated EC were the main metabolites present in plasma rather than methylated forms. Urinary excretion of total EC metabolites within 24 hours after chocolate or cocoa intake was 29.8+/-5.3%'; and 25.3+/-8.1% of total EC intake. EC in chocolate and cocoa was partly absorbed and was found to be present as a component of various conjugates in plasma, and these were rapidly excreted in urine.

Published

2000

14. Cocoa powder enhances the level of antioxidative activity in rat plasma.

Author

Baba S, Osakabe N, Natsume M, Yasuda A, Takizawa T, Nakamura T, and Terao J

Subjects

Administration, Oral, Animals, Catechin metabolism, Chromatography, High Pressure Liquid, Lipid Peroxides analysis, Male, Rats, Rats, Sprague-Dawley, Vitamin E analysis, Vitamin E metabolism, Cacao, Catechin blood

Abstract

The aims of the present study were to determine the level of (-)-epicatechin (EC) and its metabolites in rat plasma after oral administration of cocoa powder and to evaluate the protective effect of cocoa powder in terms of suppressing the oxidation of plasma components. Rats were orally administered 1 g cocoa powder/kg body weight, containing 7.80 mg EC, and their blood was collected before administration and at designated time intervals thereafter. The EC and its metabolites in plasma were treated with beta-glucuronidase and/or sulfatase, then analysed by HPLC and by liquid chromatography-MS. Several EC-related compounds were detected in plasma such as free EC, and glucuronide, sulfate, and glucuronide-sulfate conjugates of non-methylated or methylated EC. All EC metabolites showed a maximum concentration in plasma at 30-60 min post-administration. Glucuronide conjugates of both non-methylated and methylated EC were found in high concentration in plasma. Moreover, administration of cocoa powder significantly reduced the accumulation of lipid peroxides in plasma and significantly reduced the consumption of alpha-tocopherol in plasma oxidized by treatment with 2,2'-azobis-(2-amidinopropane) dihydrochloride (AAPH (25 mmol/l)) or CuSO(4) (100 micromol/l) compared with that in the case of plasma obtained before administration. The total EC concentration in plasma was negatively correlated with the level of accumulation of lipid peroxides in plasma oxidized by treatment with AAPH (25 mmol/l) and was positively correlated with the level of residual alpha-tocopherol in plasma oxidized by treatment with CuSO(4) (100 micromol/l). These results indicate that EC in cocoa powder was absorbed from the digestive tract, that various conjugated forms of EC were generated in the digestive tract and distributed to the plasma, and that these enhanced the antioxidative activity of plasma.

Published

2000