Anthocyanin Metabolism in Rats and Their Distribution to Digestive Area, Kidney, and Brain

Talavéra, Séverine; Felgines, Catherine; Texier, Odile; Besson, Catherine; Gil‐Izquierdo, Ángel; Lamaison, Jean‐Louis; Rémésy, Christian

doi:10.1021/jf050145v

Cited by 278 publications

(264 citation statements)

References 42 publications

(70 reference statements)

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“…Furthermore, anthocyanins can be absorbed into the circulation in their intact form in small amounts, while substantial amounts of anthocyanins enter the colon and undergo extensive metabolic transformation by the gut microbiota, producing a wide range of aromatic and phenolic compounds (33). Several in vivo studies have shown that some of these compounds, such as protocatechuic acid (PCA), can be detected in the systemic circulation of rats and humans after consumption of the parent compounds (41). Notably, gut microbiota metabolites of anthocyanin may also contribute to the benefits of anthocyanin supplementation in vivo.…”

Section: Discussionmentioning

confidence: 99%

Anthocyanin Cyanidin-3-Glucoside Attenuates Platelet Granule Release in Mice Fed High-Fat Diets

ZHOU

Deng

Chen

et al. 2017

J Nutr Sci Vitaminol

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Summary Platelet granule release is considered an important target for preventing and treating cardiovascular diseases (CVDs). Cyanidin-3-glucoside (Cy-3-g) is a predominant bioactive anthocyanin compound in many edible plants and has been reported to be protective against CVDs by attenuating platelet dysfunction. However, direct evidence of the action of Cy-3-g on platelet granule secretion in purified platelets from in vivo assays is still poor. In the present study, we demonstrated that dietary supplementation of purified Cy-3-g reduces serum lipid levels and facilitates down-regulation of the platelet granule release of substances such as P-selectin, CD40L, 5-HT, RANTES and TGF-b1 in gel-filtered platelets, in addition to attenuating serum PF4 and b-TG levels in mice fed high-fat diets. These results provide evidence that Cy-3-g protects against thrombosis and CVDs by inhibiting purified platelet granule release in vivo.

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Section: Discussionmentioning

confidence: 99%

Anthocyanin Cyanidin-3-Glucoside Attenuates Platelet Granule Release in Mice Fed High-Fat Diets

ZHOU

Deng

Chen

et al. 2017

J Nutr Sci Vitaminol

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“…Furthermore, oral ingestion of pure epicatechin resulted in the detection of epicatechin glucuronide and 3 0 -O-methyl-epicatechin glucuronide in rat brain tissue [3]. Anthocyanidins have also been detected in the brain after oral administration [53,168], with several anthocyanidins being identified in different regions of rat brain after the animals were fed with blueberry [12]. Such flavonoid localisation has been correlated with increased cognitive performance, suggesting a central neuroprotective role of these components.…”

Section: Flavonoid Metabolism and Access To The Brainmentioning

confidence: 97%

The interactions of flavonoids within neuronal signalling pathways

2007

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Emerging evidence suggests that dietary phytochemicals, in particular flavonoids, may exert beneficial effects in the central nervous system by protecting neurons against stress-induced injury, by suppressing neuroinflammation and by promoting neurocognitive performance, through changes in synaptic plasticity. It is likely that flavonoids exert such effects in neurons, through selective actions on different components within a number of protein kinase and lipid kinase signalling cascades, such as phosphatidylinositol-3 kinase (PI3K)/Akt, protein kinase C and mitogen-activated protein kinase. This review details the potential inhibitory or stimulatory actions of flavonoids within these pathways, and describes how such interactions are likely to affect cellular function through changes in the activation state of target molecules and/or by modulating gene expression. Although, precise sites of action are presently unknown, their abilities to: (1) bind to ATP binding sites on enzymes and receptors; (2) modulate the activity of kinases directly; (3) affect the function of important phosphatases; (4) preserve neuronal Ca 2+ homeostasis; and (5) modulate signalling cascades lying downstream of kinases, are explored. Future research directions are outlined in relation to their precise site(s) of action within the signalling pathways and the sequence of events that allow them to regulate neuronal function in the central nervous system.

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“…Their brain entry may also depend on their interactions with specific efflux transporters expressed in the BBB, such as P-glycoprotein [63] which appears to be responsible for the differences between naringenin and quercetin flux into the brain in situ [135]. In animals, flavanones have been found to enter the brain following their intravenous administration [79], whilst epigallocatechin gallate [115], epicatechin [3] and anthocyanins [26,116] Fig. 1 The structures of the main classes of flavonoids.…”

Section: Absorption Metabolism and Distribution Of Flavonoidsmentioning

confidence: 99%

The neuroprotective potential of flavonoids: a multiplicity of effects

et al. 2008

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Flavonoids exert a multiplicity of neuroprotective actions within the brain, including a potential to protect neurons against injury induced by neurotoxins, an ability to suppress neuroinflammation, and the potential to promote memory, learning and cognitive function. These effects appear to be underpinned by two common processes. Firstly, they interact with critical protein and lipid kinase signalling cascades in the brain leading to an inhibition of apoptosis triggered by neurotoxic species and to a promotion of neuronal survival and synaptic plasticity. Secondly, they induce beneficial effects on the vascular system leading to changes in cerebrovascular blood flow capable of causing angiogenesis, neurogenesis and changes in neuronal morphology. Through these mechanisms, the consumption of flavonoid-rich foods throughout life holds the potential to limit neurodegeneration and to prevent or reverse age-dependent loses in cognitive performance. The intense interest in the development of drugs capable of enhancing brain function means that flavonoids may represent important precursor molecules in the quest to develop of a new generation of brain enhancing drugs.

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Anthocyanin Metabolism in Rats and Their Distribution to Digestive Area, Kidney, and Brain

Cited by 278 publications

References 42 publications

Anthocyanin Cyanidin-3-Glucoside Attenuates Platelet Granule Release in Mice Fed High-Fat Diets

Anthocyanin Cyanidin-3-Glucoside Attenuates Platelet Granule Release in Mice Fed High-Fat Diets

The interactions of flavonoids within neuronal signalling pathways

The neuroprotective potential of flavonoids: a multiplicity of effects

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