Green tea polyphenols reduce obesity in high‐fat diet‐induced mice by modulating intestinal microbiota composition

Guo, Xiaojing; Cheng, Mei; Zhang, Xin; Cao, Jinxuan; Wu, Zufang; Weng, Peifang

doi:10.1111/ijfs.13479

Cited by 55 publications

(34 citation statements)

References 32 publications

(37 reference statements)

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“…The bacteria that can degrade and utilize, or are resistant to, tea polyphenols could flourish and contribute to the overall microbiome shift. Some previous studies showed decreased Firmicutes to Bacteroidetes ratio by green tea polyphenols . In our study, PPE significantly increased the ratio in the intestine, except in cecal mucosa and colonic content (Figure S7, Supporting Information).…”

Section: Discussionsupporting

confidence: 68%

“…Many publications reported that dietary tea polyphenols, at different doses, attenuated body weight gain and decreased the ratio of Firmicutes to Bacteroidetes in mice fed an HFD . It is unclear, however, whether the results were due to the prevention of HFD‐induced changes in microbiota by tea polyphenol treatment, and the role of intestinal microbiota in mediating the beneficial effects of tea, remain unclear.…”

Section: Introductionmentioning

confidence: 99%

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Green Tea Polyphenols Modify the Gut Microbiome in db/db Mice as Co‐Abundance Groups Correlating with the Blood Glucose Lowering Effect

Chen

Liu

Sun

et al. 2019

Molecular Nutrition Food Res

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Scope The effects of green tea polyphenols, Polyphenon E (PPE), and black tea polyphenols, theaflavins (TFs), on gut microbiota and development of diabetes in db/db mice are investigated and compared. Methods and results Supplementation of PPE (0.1%) in the diet of female db/db mice for 7 weeks decreases fasting blood glucose levels and mesenteric fat while increasing the serum level of insulin, possibly through protection against β‐cell damage. However, TFs are less or not effective. Microbiome analysis through 16S rRNA gene sequencing shows that PPE and TFs treatments significantly alter the bacterial community structure in the cecum and colon, but not in the ileum. The key bacterial phylotypes responding to the treatments are then clustered into 11 co‐abundance groups (CAGs). CAGs 6 and 7, significantly increased by PPE but not by TFs, are negatively associated with blood glucose levels. The operational taxonomic units in these CAGs are from two different phyla, Firmicutes and Bacteroidetes. CAG 10, decreased by PPE and TFs, is positively associated with blood glucose levels. Conclusion Gut microbiota respond to tea polyphenol treatments as CAGs instead of taxa. Some of the CAGs associated with the blood glucose lowering effect are enriched by PPE, but not TFs.

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Section: Discussionsupporting

confidence: 68%

Section: Introductionmentioning

confidence: 99%

Green Tea Polyphenols Modify the Gut Microbiome in db/db Mice as Co‐Abundance Groups Correlating with the Blood Glucose Lowering Effect

Chen

Liu

Sun

et al. 2019

Molecular Nutrition Food Res

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“…DNA concentrations were measured by a Nano-Drop 1000 spectrophotometer (Thermo Scientific Inc, Wilmington, DE, USA). The V3-V4 region of the bacterial 16S rRNA gene was amplified by PCR using primers 314F (5 0 -CCTACGGGNGGCWGCAG-3 0 ) and 805R (5 0 -GACTA CHVGGGTATCTAATCC-3 0 ) ( Guo et al, 2017). The PCR conditions and reaction mixtures were completed according to methods previously described .…”

Section: Dna Extraction and Illumina Miseq Sequencingmentioning

confidence: 99%

Caecal infusion of the short‐chain fatty acid propionate affects the microbiota and expression of inflammatory cytokines in the colon in a fistula pig model

Zhang

Chen

et al. 2018

Microbial Biotechnology

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SummaryShort‐chain fatty acids (SCFAs), particularly butyrate, are known to suppress inflammation, and regulate the gut bacterial ecology. However, little is known about propionate. We report here that propionate infusion in the caecum dramatically affected the structure of colonic microbiota of pigs based on 16s rRNA high‐throughput sequencing. Sixteen pig models were perfused with saline or sodium propionate by a fistula in the caecum. At d 28, all pigs were slaughtered for analysing bacterial metabolites, colonic microbiota and the expression of genes related to inflammation. The results showed that caecal infusion of sodium propionate increased the concentration of propionate and decreased the butyrate concentration in colonic content. For biogenic amines, the tyramine concentration was increased, while the concentration of cadaverine was decreased by infusion of sodium propionate. Furthermore, at the level of phylum, propionate increased the abundance of Bacteroidetes and reduced the abundance of Firmicutes. Prevotella and Bacteroides counts were increased, while Turicibacter abundance was decreased at the level of genus. Real‐time qPCR showed that the expression of NF‐κB and IL‐18 was upregulated by propionate infusion, whereas no significant differences were observed for the expression of other genes related to inflammatory processes. Taken together, these results provide a new evidence for the role of short‐chain fatty acid propionate on the composition of microbial community and inflammatory cytokines.

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“…Green tea is obtained from Camellia sinensis , which is rich in flavonoids (Omaye & Dubick, ). The main bioactive components in GT are catechins, class of flavonoids and a group of polyphenols (Guo et al, ). The GT catechins are more effective (antioxidant activity) in comparison with other tea polyphenols (Ananingsih, Sharma, & Zhou, ).…”

Section: Introductionmentioning

confidence: 99%

Effect of freeze-dried green tea added in hamburgers as source of antioxidant during freezing storage

Fachinello

Vital

Chambo

et al. 2018

J Food Process Preserv

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The objective of this study was to investigate the antioxidant potential of freeze‐dried green tea (GT) in hamburgers (lipid oxidation) and its influence on quality characteristics (composition, colour, texture, pH, microorganisms and sensory acceptance). The total polyphenol (TPC), flavonoid content (FC) and antioxidant activity of GT were also evaluated. Five treatments were used: control—without antioxidant; butylhydroxytoluene (BHT)—with 0.01% of BHT; and with different levels of GT (0.01%, 0.02% and 0.04%). The TPC in GT was 44.31 mg gallic acid equivalent (GAE)/g, FC was 4.43 mg quercetin equivalent (QE)/g and also presented a higher antioxidant activity. The GT addition did not influence (p > 0.05) on moisture, protein, lipid, ashes, calories, microorganism counts and shear force of hamburger. Only the b* value (colour) was affected (p < 0.047). GT was more efficient in retarding the hamburger oxidation than BHT (p < 0.05). No influence was also observed on sensory acceptability of hamburger, being the GT a potential substitute for synthetic antioxidant. Practical applications Currently, the use of antioxidants by the industry is done on a large scale, mainly aimed at inhibiting or retarding lipid oxidation, which modify colour, flavour, texture and decrease nutritional quality of food, reducing the acceptability by consumers leading them to reject the product. However, most of these antioxidants are synthetic and many of them are harmful to human health. Thus, this work demonstrates the potential use of a natural antioxidant (green tea) as a substitute for synthetic antioxidant by the food industries.

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Green tea polyphenols reduce obesity in high‐fat diet‐induced mice by modulating intestinal microbiota composition

Cited by 55 publications

References 32 publications

Green Tea Polyphenols Modify the Gut Microbiome in db/db Mice as Co‐Abundance Groups Correlating with the Blood Glucose Lowering Effect

Green Tea Polyphenols Modify the Gut Microbiome in db/db Mice as Co‐Abundance Groups Correlating with the Blood Glucose Lowering Effect

Caecal infusion of the short‐chain fatty acid propionate affects the microbiota and expression of inflammatory cytokines in the colon in a fistula pig model

Effect of freeze-dried green tea added in hamburgers as source of antioxidant during freezing storage

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