Microbial Metabolites of Flavan-3-Ols and Their Biological Activity

Campos, Estefanía Márquez; Stehle, Peter; Simon, Marie‐Christine

doi:10.3390/nu11102260

Cited by 48 publications

(27 citation statements)

References 94 publications

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“…Many polyphenols have little bioavailability and reach the colon almost unaltered. There, they encounter the gut microbes, resulting in a two-way interaction in which polyphenols modulate the gut microbiota composition, and the intestinal microbes catabolize the ingested polyphenols to release metabolites that are often more active and better absorbed than the native phenolic compounds Polyphenols present in fruits, vegetables, and cereals have emerged as one of the main families of natural compounds; most of them have been considered functional foods with potential biological activities in many pathologies, such as cardiovascular diseases, diabetes, obesity and inflammation-related diseases, neurodegenerative disorders, and cancer [26,56]. Several health activities have been associated to dietary polyphenols, including antioxidant properties [57], anti-proliferative action [58], anti-inflammatory effects [59], anti-hypertensive and antithrombotic activities [60].…”

Section: Dietary Polyphenols Their Interactions With Microbiota Andmentioning

confidence: 99%

Interplay between Dietary Polyphenols and Oral and Gut Microbiota in the Development of Colorectal Cancer

et al. 2020

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Colorectal cancer (CRC) is the third most diagnosed type of cancer worldwide. Dietary features play an important role in its development, and the involvement of human microbial communities in this pathology has also recently been recognized. Individuals with CRC display alterations in gut bacterial composition and a notably higher abundance of putative oral bacteria in colonic tumors. Many experimental studies and preclinical evidence propose that dietary polyphenols have a relevant role in CRC development and progression, mainly attributed to their immunomodulatory activities. Furthermore, polyphenols can modulate oral and gut microbiota, and in turn, intestinal microbes catabolize polyphenols to release metabolites that are often more active and better absorbed than the original phenolic compounds. The current study aimed to review and summarize current knowledge on the role of microbiota and the interactions between dietary polyphenols and microbiota in relation to CRC development. We have highlighted the mechanisms by which dietary polyphenols and/or their microbial metabolites exert their action on the pathogenesis and prevention of CRC as modulators of the composition and/or activity of oral and intestinal microbiota, including novel screening biomarkers and possible nutritional therapeutic implications.

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Section: Dietary Polyphenols Their Interactions With Microbiota Andmentioning

confidence: 99%

Interplay between Dietary Polyphenols and Oral and Gut Microbiota in the Development of Colorectal Cancer

et al. 2020

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“…The impact of all these metabolites for health has not yet been completely elucidated. Nevertheless, current data suggest possible evidence that these microbial metabolites might also be relevant for human health [7].…”

mentioning

confidence: 85%

Cocoa, Chocolate, and Human Health

Zimmermann

Ellinger

2020

Nutrients

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“…For example, flavan-3-ols, phenolic compounds characterized by a generally low bioavailability, are extensively metabolized by host and gut microbiota enzymes. Phenyl-γ-valerolactones and phenylvaleric acids, the main microbial metabolites of flavan-3-ols, might be responsible for the beneficial effects attributed to their parent compounds, including neuroprotection [ 43 ]. Daidzein, an isoflavone endowed with beneficial properties enriched in soy food, is metabolized by gut microbiota to equol, which possesses higher antioxidant activity and affinity for estrogen receptors than the parent compound.…”

Section: Polyphenol Metabolism: Role Of Gut Microbiotamentioning

confidence: 99%

From Preclinical Stroke Models to Humans: Polyphenols in the Prevention and Treatment of Stroke

et al. 2020

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Polyphenols are an important family of molecules of vegetal origin present in many medicinal and edible plants, which represent important alimentary sources in the human diet. Polyphenols are known for their beneficial health effects and have been investigated for their potential protective role against various pathologies, including cancer, brain dysfunctions, cardiovascular diseases and stroke. The prevention of stroke promoted by polyphenols relies mainly on their effect on cardio- and cerebrovascular systems. However, a growing body of evidence from preclinical models of stroke points out a neuroprotective role of these molecules. Notably, in many preclinical studies, the polyphenolic compounds were effective also when administered after the stroke onset, suggesting their possible use in promoting recovery of patients suffering from stroke. Here, we review the effects of the major polyphenols in cellular and in vivo models of both ischemic and hemorrhagic stroke in immature and adult brains. The results from human studies are also reported.

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Microbial Metabolites of Flavan-3-Ols and Their Biological Activity

Cited by 48 publications

References 94 publications

Interplay between Dietary Polyphenols and Oral and Gut Microbiota in the Development of Colorectal Cancer

Interplay between Dietary Polyphenols and Oral and Gut Microbiota in the Development of Colorectal Cancer

Cocoa, Chocolate, and Human Health

From Preclinical Stroke Models to Humans: Polyphenols in the Prevention and Treatment of Stroke

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