Metabolic and Microbial Modulation of the Large Intestine Ecosystem by Non-Absorbed Diet Phenolic Compounds:  A Review

Mosele, Juana I.; Macià, Alba; Motilva, María‐José

doi:10.3390/molecules200917429

Cited by 188 publications

(209 citation statements)

References 192 publications

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“…Equol has been shown to be more bioactive than its food precursor daidzein in vitro and in trials (predominantly with the equol-producer phenotype assessed retrospectively), the magnitude of the biological effect was greatly enhanced in participants who produced equol after isoflavone ingestion, which suggested that there is a critical role of the microbiome for health effects (125–127). In general terms, there is emerging literature that describes the diverse and significant impact of flavonoid phenolics and other small molecules that are produced in the large intestine on physiologic processes such as SCFA production and bioavailability, bile acid metabolism, redox and inflammatory status, and associated intestinal, hepatic, and overall systemic functions (128). The production of SCFA is of interest in colonic health, dietary energy extraction, and body-weight regulation (128, 129).…”

Section: Etiology Of the Heterogeneity In Flavonoid Admementioning

confidence: 99%

“…In general terms, there is emerging literature that describes the diverse and significant impact of flavonoid phenolics and other small molecules that are produced in the large intestine on physiologic processes such as SCFA production and bioavailability, bile acid metabolism, redox and inflammatory status, and associated intestinal, hepatic, and overall systemic functions (128). The production of SCFA is of interest in colonic health, dietary energy extraction, and body-weight regulation (128, 129). Although flavonoid-induced effects on the main SCFAs acetic (C2), propionic (C3), and butyric (C4) acids have been repeatedly shown in in vitro fermentation systems and in rodent models (128), data from human interventions have been limited and nonconclusive.…”

Section: Etiology Of the Heterogeneity In Flavonoid Admementioning

confidence: 99%

“…The production of SCFA is of interest in colonic health, dietary energy extraction, and body-weight regulation (128, 129). Although flavonoid-induced effects on the main SCFAs acetic (C2), propionic (C3), and butyric (C4) acids have been repeatedly shown in in vitro fermentation systems and in rodent models (128), data from human interventions have been limited and nonconclusive. For example, in healthy humans, red-wine grape-juice extract, but not grape-juice extract, fed for 4 wk reduced fecal isobutyric acid concentrations (130), whereas Mosele et al (131) reported no impact of 4 wk of pomegranate-juice consumption on total or individual fecal SCFA concentrations.…”

Section: Etiology Of the Heterogeneity In Flavonoid Admementioning

confidence: 99%

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The role of metabolism (and the microbiome) in defining the clinical efficacy of dietary flavonoids

Cassidy

Minihane

2017

The American Journal of Clinical Nutrition

373

287

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At a population level, there is growing evidence of the beneficial effects of dietary flavonoids on health. However, there is extensive heterogeneity in the response to increased intake, which is likely mediated via wide interindividual variability in flavonoid absorption and metabolism. Flavonoids are extensively metabolized by phase I and phase II metabolism (which occur predominantly in the gastrointestinal tract and liver) and colonic microbial metabolism. A number of factors, including age, sex, and genotype, may affect these metabolic processes. In addition, food composition and flavonoid source are likely to affect bioavailability, and emerging data suggest a critical role for the microbiome. This review will focus on the current knowledge for the main subclasses of flavonoids, including anthocyanins, flavonols, flavan-3-ols, and flavanones, for which there is growing evidence from prospective studies of beneficial effects on health. The identification of key factors that govern metabolism and an understanding of how the differential capacity to metabolize these bioactive compounds affect health outcomes will help establish how to optimize intakes of flavonoids for health benefits and in specific subgroups. We identify research areas that need to be addressed to further understand important determinants of flavonoid bioavailability and metabolism and to advance the knowledge base that is required to move toward the development of dietary guidelines and recommendations for flavonoids and flavonoid-rich foods.

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Section: Etiology Of the Heterogeneity In Flavonoid Admementioning

confidence: 99%

Section: Etiology Of the Heterogeneity In Flavonoid Admementioning

confidence: 99%

Section: Etiology Of the Heterogeneity In Flavonoid Admementioning

confidence: 99%

See 1 more Smart Citation

The role of metabolism (and the microbiome) in defining the clinical efficacy of dietary flavonoids

Cassidy

Minihane

2017

The American Journal of Clinical Nutrition

373

287

View full text Add to dashboard Cite

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“…Considering similar effects of polyphenol‐enriched diets in laboratory animals (Larrosa et al., ; Qiao et al., ; Etxeberria et al., ), it can be postulated that a key mechanism of this beneficial effect of polyphenol‐rich diets in pigs is their contribution to gut health by exerting a pre‐biotic activity favouring the growth of beneficial bacteria while inhibiting the growth of pathogenic bacteria. This beneficial modulation of the gut microbiota is known to enhance gut barrier function, decrease the translocation of bacterial components into the circulation and stimulate the host immune system (Mosele et al., ). In line with this, it was reported that the modulation of the colon microbiota by plant polyphenols correlated with reduced levels of systemic inflammatory markers, such as C‐reactive protein, and decreased expression of inflammatory genes in tissues (Axling et al., ; Queipo‐Ortuño et al., ; Moreno‐Indias et al., ).…”

Section: Effects Of Polyphenols On Oxidative Stress and Inflammation mentioning

confidence: 99%

Potential of plant polyphenols to combat oxidative stress and inflammatory processes in farm animals

Geßner

Ringseis

Eder

2016

Animal Physiology Nutrition

236

198

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Polyphenols are secondary plant metabolites which have been shown to exert antioxidative and antiinflamma tory effects in cell culture, rodent and human studies. Based on the fact that conditions of oxidative stress and inflammation are highly relevant in farm animals, polyphenols are considered as promising feed additives in the nutrition of farm animals. However, in contrast to many studies existing with model animals and humans, potential antioxidative and antiinflammatory effects of polyphenols have been less investigated in farm animals so far. This review aims to give an overview about potential antioxidative and antiinflammatory effects in farm animals. The first part of the review highlights the occurrence and the consequences of oxidative stress and inflammation on animal health and performance. The second part of the review deals with bioavailability and metabolism of polyphenols in farm animals. The third and main part of the review presents an overview of the findings from studies which investigated the effects of polyphenols of various plant sources in pigs, poultry and cattle, with particular consideration of effects on the antioxidant system and inflammation.

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“…and decreased undesirable bacteria such as clostridia after batch culture fermentations [16]. Phenolic compounds contained in a cocoa powder reduced the growth of some members of the genera Staphylococcus and Clostridium, affecting the intestinal microbiota profile [17].…”

Section: Introductionmentioning

confidence: 99%

Some Contributions to the Study of Oenological Lactic Acid Bacteria through Their Interaction with Polyphenols

et al. 2016

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Probiotic features and the ability of two oenological lactic acid bacteria strains (Pediococcus pentosaceus CIAL-86 and Lactobacillus plantarum CIAL-121) and a reference probiotic strain (Lactobacillus plantarum CLC 17) to metabolize wine polyphenols are examined. After summarizing previous results regarding their resistance to lysozyme, gastric juice and bile salts, the three strains were assessed for their ability to release phenolic metabolites after their incubation with a wine phenolic extract. Neither of the two bacteria were able to metabolize wine polyphenols, at least in the conditions used in this study, although a certain stimulatory effect on bacterial growth was observed in the presence of a wine-derived phenolic metabolite (i.e., 3,4-dihydroxyphenylacetic acid) and a wine phenolic compound (i.e., (+)-catechin). Bacteria cell-free supernatants from the three strains delayed and inhibited almost completely the growth of the pathogen E. coli CIAL-153, probably due to the presence of organic acids derived from the bacterial metabolism of carbohydrates. Lastly, the three strains showed a high percentage of adhesion to intestinal cells, and pre-incubation of Caco-2 cells with bacteria strains prior to the addition of E. coli CIAL-153 produced a notable inhibition of the adhesion of E. coli to the intestinal cells.

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Metabolic and Microbial Modulation of the Large Intestine Ecosystem by Non-Absorbed Diet Phenolic Compounds: A Review

Cited by 188 publications

References 192 publications

The role of metabolism (and the microbiome) in defining the clinical efficacy of dietary flavonoids

The role of metabolism (and the microbiome) in defining the clinical efficacy of dietary flavonoids

Potential of plant polyphenols to combat oxidative stress and inflammatory processes in farm animals

Some Contributions to the Study of Oenological Lactic Acid Bacteria through Their Interaction with Polyphenols

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