Your search keyword '"Manach C"' showing total 154 results

151. Part of quercetin absorbed in the small intestine is conjugated and further secreted in the intestinal lumen.

Author

Crespy V, Morand C, Manach C, Besson C, Demigne C, and Remesy C

Subjects

Animals, Gastrointestinal Contents, Glucuronates metabolism, Hydrolysis, Intestinal Absorption physiology, Male, Osmolar Concentration, Perfusion, Quercetin administration & dosage, Quercetin metabolism, Rats, Rats, Wistar, Rutin pharmacokinetics, Intestine, Small metabolism, Quercetin pharmacokinetics

Abstract

Rutin and quercetin absorption and metabolism were investigated in rats after in situ perfusion of jejunum plus ileum (15 nmol/min). In contrast to rutin, a high proportion of quercetin (two-thirds) disappeared during perfusion, reflecting extensive transfer into the intestinal wall. Net quercetin absorption was not complete (2.1 nmol/min), inasmuch as 52% were reexcreted in the lumen as conjugated derivatives (7.7 nmol/min). Enterohepatic recycling contribution of flavonoids was excluded by catheterization of the biliary duct before perfusion. After a 30-min perfusion period, 0.71 microM of quercetin equivalents were detected in plasma, reflecting a significant absorption from the small intestine. The differential hydrolysis of effluent samples by glucuronidase and/or sulfatase indicates that the conjugated forms released in the lumen were 1) glucuronidated derivatives of quercetin and of its methoxylated forms (64%) and 2) sulfated form of quercetin (36%). In vitro quercetin glucuronides synthetized using jejunal and ileal microsomal fractions were similar to those recovered in the effluent of perfusion. These data suggest that glucuronidation and sulfatation take place in intestinal cells, whereas no glucurono-sulfoconjugates could be detected in the effluent. The present work shows that a rapid quercetin absorption in the small intestine is very effective together with its active conjugation in intestinal cells.

Published

1999

152. Plasma metabolites of quercetin and their antioxidant properties.

Author

Morand C, Crespy V, Manach C, Besson C, Demigné C, and Rémésy C

Subjects

Animals, Antioxidants metabolism, Chromatography, High Pressure Liquid, Glucuronates blood, Male, Oxidation-Reduction, Quercetin analogs & derivatives, Rats, Rats, Wistar, Flavonols, Lipoproteins blood, Liver metabolism, Quercetin blood, Quercetin pharmacokinetics

Abstract

Quercetin is one of the most widely distributed flavonoids present in fruits and vegetables. The present experiments were performed on rats adapted for 3 wk to a semipurified diet supplemented with 0.2% quercetin. The major part of the circulating metabolites of quercetin (91.5%) are glucurono-sulfo conjugates of isorhamnetin (3'-O-methyl quercetin; 89.1 +/- 2.1 microM) and of quercetin (14.7 +/- 1.7 microM); the minor part (8.5%) is constituted by glucuronides of quercetin and its methoxylated forms (9.6 +/- 2.3 microM). Conjugated dienes formation, resulting from Cu2+-catalyzed oxidation of rat very low density lipoproteins + low density lipoproteins (LDL), was effectively inhibited in vitro by conjugated metabolites of quercetin. These metabolites appeared to be four times more potent than trolox in inhibiting LDL oxidation. Moreover, the plasma from rats adapted to a diet containing 0.2% quercetin exhibited a total antioxidant status markedly higher than that of control rats (+60%). This study shows that ubiquitous quercetin is conjugated in vivo, yielding metabolites that exhibit antioxidant properties. Thus the health benefits of flavonoids in foods can be due to the antioxidant properties of their metabolites.

Published

1998

153. Quercetin metabolites in plasma of rats fed diets containing rutin or quercetin.

Author

Manach C, Morand C, Texier O, Favier ML, Agullo G, Demigné C, Régérat F, and Rémésy C

Subjects

Albumins analysis, Albumins metabolism, Animals, Antioxidants pharmacology, Biological Availability, Biological Transport, Cecum chemistry, Cecum metabolism, Chromatography, High Pressure Liquid, Feces chemistry, Flavonoids analysis, Flavonoids blood, Flavonoids metabolism, Flavonoids pharmacokinetics, Flavonols, Ileum chemistry, Ileum metabolism, Intestinal Absorption, Lipoproteins metabolism, Luteolin, Male, Quercetin analogs & derivatives, Quercetin metabolism, Quercetin pharmacokinetics, Rats, Rats, Wistar, Rutin blood, Rutin pharmacokinetics, Spectrometry, Fluorescence, Diet, Quercetin administration & dosage, Quercetin blood, Rutin administration & dosage

Abstract

We studied the bioavailability and the plasma transport of flavonols in rats fed quercetin or rutin diets. Wistar rats were fed one of the following purified diets for 10 d: control; 16.4 or 8.2 mmol rutin/kg diet; or 16.4, 8.2 or 4.1 mmol quercetin/kg diet. Flavonol concentrations were determined in plasma, ileal and cecal contents, and feces. In rats fed diets containing 16.4 mmol quercetin or rutin/kg, the concentration of circulating flavonols was approximately 115 mumol/L. Quercetin or rutin administration resulted in similar concentrations of quercetin in cecal contents. By HPLC analysis and beta-glucuronidase/sulfatase treatment, plasma flavonols have been identified as conjugated quercetin itself, or a conjugated form (4.5-fold as abundant) of an aglycone less polar than quercetin. Rats fed quercetin or rutin diets had a green/yellow-colored plasma that exhibited a peak absorbance at 411 nm, vs. 363 or 375 nm for pure rutin or quercetin solutions, respectively. This shift of band I absorption was obtained when pure quercetin was in the presence of albumin or added to a plasma fraction. The bathochromic properties of flavonoids in the presence of albumin are highly dependent on the presence of the C-2/C-3 double bond on the C-ring and are influenced by the degree of B-ring hydroxylation. The existence of intermolecular bonds between albumin and quercetin is supported by in vitro absorbance and fluorescence studies. With human albumin, the fluorescence intensity and the shift of quercetin absorbance increased in parallel to the albumin/quercetin molar ratio. Conjugated diene formation, resulting from Cu(2+)-catalyzed oxidation of human LDL or rat VLDL+LDL was effectively inhibited in vitro by 0.5 mumol/L quercetin. These results show that dietary flavonols are recovered in rat plasma as conjugated metabolites in non-negligible concentrations, and that these flavonols may be interesting antioxidant micronutrients with a variety of biological effects.

Published

1995

154. [Solitary nevoxanthoendothelioma in the infant].

Author

Duperrat B, Masse R, and Le Manach C

Subjects

Female, Humans, Infant, Xanthogranuloma, Juvenile

Published

1966