Fermented soy whey induced changes on intestinal microbiota and metabolic influence in mice

Fermented soy whey induced changes on intestinal microbiota and metabolic influence in mice

Soy whey (SW) is generated as process waste while preparing soy protein isolates (SPI), and causing severe environmental pollution. Therefore, its value-added utilization is of prime importance for transforming and upgrading traditional industry. This study aims to utilize SW as a substrate for the...

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Main Authors: Wei Han, Xuhui Zhuang, Qian Liu, Bo Sun, Haijiang Miao, Xiaolin Zhang
Format: Article
Language:English
Published: KeAi Communications Co., Ltd. 2022-01-01
Series:Food Science and Human Wellness
Subjects:
Soy whey
Microbiota
Short chain fatty acids
Lactobacillus casei
Akkermansia muciniphila
Online Access:http://www.sciencedirect.com/science/article/pii/S2213453021000719
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spelling doaj-98489b103b9642409e75e8d9b48a2b702021-09-13T04:14:02ZengKeAi Communications Co., Ltd.Food Science and Human Wellness2213-45302022-01-011114148Fermented soy whey induced changes on intestinal microbiota and metabolic influence in miceWei Han0Xuhui Zhuang1Qian Liu2Bo Sun3Haijiang Miao4Xiaolin Zhang5Academy of State Administration of Grain, Beijing 100037, China; Corresponding author.Academy of State Administration of Grain, Beijing 100037, ChinaBeijing Key Laboratory of Bioactive Substances and Functional Foods, Beijing Union University, Beijing 100191, ChinaAcademy of State Administration of Grain, Beijing 100037, ChinaAcademy of State Administration of Grain, Beijing 100037, ChinaCOFCO Nutrition and Health Institute, Beijing 102209, China; Corresponding author.Soy whey (SW) is generated as process waste while preparing soy protein isolates (SPI), and causing severe environmental pollution. Therefore, its value-added utilization is of prime importance for transforming and upgrading traditional industry. This study aims to utilize SW as a substrate for the growth of probiotics and produce a SW based synbiotics. By a series of trials, the effect of the dietary supplementation with this fermented SW (FSW) was analyzed on ICR mice's body weight, metabolites, and intestinal microbiota in 4 weeks. The results showed that, when SW was concentrated 15 times, the count of viable Lactobacillus casei reached 3.4 × 109 CFU/mL by liquid fermentation method, which was the highest viable cell count among all test strains. In this FSW, the protein, amino acid, total dietary fibre, soluble dietary fibre, and oligosaccharide were 2.10%, 1.63%, 0.52%, 0.51% and 0.79%, respectively. Compared to two control group, the total yields of the short chain fatty acids (SCFAs) were significantly improved (75%–125% at average), while the SCFAs structure was also significantly changed (especially acetic acid and butyrate) in the faeces of mice fed FSW. Meanwhile, FSW dietary addition was associated with the diversity and richness of the intestinal microbiota. Obviously, with mice's body weight loss, Firmicutes/Bacteroides ratio reduced accordingly (< 1.21), and the abundance of Akkermansia muciniphila was significantly increased (the maximum amount was about 0.013%). In summary, our results indicated that the dietary supplementation of FSW affected mice's intestinal microbiota and metabolism and improved their health profile.http://www.sciencedirect.com/science/article/pii/S2213453021000719Soy wheyMicrobiotaShort chain fatty acidsLactobacillus caseiAkkermansia muciniphila
collection DOAJ
language English
format Article
sources DOAJ
author Wei Han
Xuhui Zhuang
Qian Liu
Bo Sun
Haijiang Miao
Xiaolin Zhang
spellingShingle Wei Han
Xuhui Zhuang
Qian Liu
Bo Sun
Haijiang Miao
Xiaolin Zhang
Fermented soy whey induced changes on intestinal microbiota and metabolic influence in mice
Food Science and Human Wellness
Soy whey
Microbiota
Short chain fatty acids
Lactobacillus casei
Akkermansia muciniphila
author_facet Wei Han
Xuhui Zhuang
Qian Liu
Bo Sun
Haijiang Miao
Xiaolin Zhang
author_sort Wei Han
title Fermented soy whey induced changes on intestinal microbiota and metabolic influence in mice
title_short Fermented soy whey induced changes on intestinal microbiota and metabolic influence in mice
title_full Fermented soy whey induced changes on intestinal microbiota and metabolic influence in mice
title_fullStr Fermented soy whey induced changes on intestinal microbiota and metabolic influence in mice
title_full_unstemmed Fermented soy whey induced changes on intestinal microbiota and metabolic influence in mice
title_sort fermented soy whey induced changes on intestinal microbiota and metabolic influence in mice
publisher KeAi Communications Co., Ltd.
series Food Science and Human Wellness
issn 2213-4530
publishDate 2022-01-01
description Soy whey (SW) is generated as process waste while preparing soy protein isolates (SPI), and causing severe environmental pollution. Therefore, its value-added utilization is of prime importance for transforming and upgrading traditional industry. This study aims to utilize SW as a substrate for the growth of probiotics and produce a SW based synbiotics. By a series of trials, the effect of the dietary supplementation with this fermented SW (FSW) was analyzed on ICR mice's body weight, metabolites, and intestinal microbiota in 4 weeks. The results showed that, when SW was concentrated 15 times, the count of viable Lactobacillus casei reached 3.4 × 109 CFU/mL by liquid fermentation method, which was the highest viable cell count among all test strains. In this FSW, the protein, amino acid, total dietary fibre, soluble dietary fibre, and oligosaccharide were 2.10%, 1.63%, 0.52%, 0.51% and 0.79%, respectively. Compared to two control group, the total yields of the short chain fatty acids (SCFAs) were significantly improved (75%–125% at average), while the SCFAs structure was also significantly changed (especially acetic acid and butyrate) in the faeces of mice fed FSW. Meanwhile, FSW dietary addition was associated with the diversity and richness of the intestinal microbiota. Obviously, with mice's body weight loss, Firmicutes/Bacteroides ratio reduced accordingly (< 1.21), and the abundance of Akkermansia muciniphila was significantly increased (the maximum amount was about 0.013%). In summary, our results indicated that the dietary supplementation of FSW affected mice's intestinal microbiota and metabolism and improved their health profile.
topic Soy whey
Microbiota
Short chain fatty acids
Lactobacillus casei
Akkermansia muciniphila
url http://www.sciencedirect.com/science/article/pii/S2213453021000719
work_keys_str_mv AT weihan fermentedsoywheyinducedchangesonintestinalmicrobiotaandmetabolicinfluenceinmice
AT xuhuizhuang fermentedsoywheyinducedchangesonintestinalmicrobiotaandmetabolicinfluenceinmice
AT qianliu fermentedsoywheyinducedchangesonintestinalmicrobiotaandmetabolicinfluenceinmice
AT bosun fermentedsoywheyinducedchangesonintestinalmicrobiotaandmetabolicinfluenceinmice
AT haijiangmiao fermentedsoywheyinducedchangesonintestinalmicrobiotaandmetabolicinfluenceinmice
AT xiaolinzhang fermentedsoywheyinducedchangesonintestinalmicrobiotaandmetabolicinfluenceinmice
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