Metabolism of dietary procyanidins in rats

Procyanidins are major dietary polyphenols made of elementary flavan-3-ol (epi)catechin units. They have antioxidant properties and may contribute to health benefits in humans, but little is known about their metabolic fate. We compared here the metabolism of procyanidin dimer B3, trimer C2, and pol...

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Veröffentlicht in:	Free radical biology & medicine 2003-10, Vol.35 (8), p.837-844
Hauptverfasser:	Gonthier, Marie-Paule, Donovan, Jennifer L, Texier, Odile, Felgines, Catherine, Remesy, Christian, Scalbert, Augustin
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Sprache:	eng
Schlagworte:	Animals Antioxidants Aromatic acids Benzoic Acid - metabolism Biflavonoids Catechin Catechin - metabolism Diet Dietary polyphenols Free radicals Gut microflora Male Metabolism Pentanoic Acids - metabolism Phenylacetates - metabolism Phenylpropionates - metabolism Proanthocyanidins Procyanidins Rats Rats, Wistar
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creator	Gonthier, Marie-Paule Donovan, Jennifer L Texier, Odile Felgines, Catherine Remesy, Christian Scalbert, Augustin
description	Procyanidins are major dietary polyphenols made of elementary flavan-3-ol (epi)catechin units. They have antioxidant properties and may contribute to health benefits in humans, but little is known about their metabolic fate. We compared here the metabolism of procyanidin dimer B3, trimer C2, and polymer isolated from willow tree catkins to that of catechin monomer in rats. These compounds were administered in the rat diet (0.1%, w/w) for 5 d and their metabolites estimated in 24 h urine. In rats fed procyanidins, neither parent compound nor catechin derivatives could be detected in contrast to animals fed catechin monomer, which excreted large amounts of catechin and its 3′-O-methylated form (25.7 ± 0.6%). On the other hand, 16 metabolites of microbial origin were detected and identified as phenylvaleric, phenylpropionic, phenylacetic, and benzoic acid derivatives. Their total yields significantly decreased from the catechin monomer (10.6 ± 1.1%) to the procyanidin dimer (6.5 ± 0.2%), trimer (0.7 ± 0.1%), and polymer (0.5 ± 0.1%). Therefore, the degree of procyanidin polymerization has a major impact on their fate in the body characterized by a poor absorption through the gut barrier and a limited metabolism by the intestinal microflora as compared to catechin. This will have to be considered to explain the health effects of procyanidins. The contribution of their microbial metabolites should also be further investigated.
doi_str_mv	10.1016/S0891-5849(03)00394-0
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They have antioxidant properties and may contribute to health benefits in humans, but little is known about their metabolic fate. We compared here the metabolism of procyanidin dimer B3, trimer C2, and polymer isolated from willow tree catkins to that of catechin monomer in rats. These compounds were administered in the rat diet (0.1%, w/w) for 5 d and their metabolites estimated in 24 h urine. In rats fed procyanidins, neither parent compound nor catechin derivatives could be detected in contrast to animals fed catechin monomer, which excreted large amounts of catechin and its 3′-O-methylated form (25.7 ± 0.6%). On the other hand, 16 metabolites of microbial origin were detected and identified as phenylvaleric, phenylpropionic, phenylacetic, and benzoic acid derivatives. Their total yields significantly decreased from the catechin monomer (10.6 ± 1.1%) to the procyanidin dimer (6.5 ± 0.2%), trimer (0.7 ± 0.1%), and polymer (0.5 ± 0.1%). 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They have antioxidant properties and may contribute to health benefits in humans, but little is known about their metabolic fate. We compared here the metabolism of procyanidin dimer B3, trimer C2, and polymer isolated from willow tree catkins to that of catechin monomer in rats. These compounds were administered in the rat diet (0.1%, w/w) for 5 d and their metabolites estimated in 24 h urine. In rats fed procyanidins, neither parent compound nor catechin derivatives could be detected in contrast to animals fed catechin monomer, which excreted large amounts of catechin and its 3′-O-methylated form (25.7 ± 0.6%). On the other hand, 16 metabolites of microbial origin were detected and identified as phenylvaleric, phenylpropionic, phenylacetic, and benzoic acid derivatives. Their total yields significantly decreased from the catechin monomer (10.6 ± 1.1%) to the procyanidin dimer (6.5 ± 0.2%), trimer (0.7 ± 0.1%), and polymer (0.5 ± 0.1%). 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subjects	Animals Antioxidants Aromatic acids Benzoic Acid - metabolism Biflavonoids Catechin Catechin - metabolism Diet Dietary polyphenols Free radicals Gut microflora Male Metabolism Pentanoic Acids - metabolism Phenylacetates - metabolism Phenylpropionates - metabolism Proanthocyanidins Procyanidins Rats Rats, Wistar
title	Metabolism of dietary procyanidins in rats
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