Functional Fiber Reduces Mice Obesity by Regulating Intestinal Microbiota
Mengdi Zhang, Jianhua Liu, Chen Li, Jianwei Gao, Chuanhui Xu, Xiaoyu Wu, Tiesheng Xu, Chenbin Cui, Hongkui Wei, Jian Peng, Rong Zheng
Journal:Nutrients
IF:6.71
DOI:10.3390/nu14132676
PMID:35807856
Published:2022-06-28
research field:
Abstract
Obesity may cause metabolic syndrome and has become a global public health problem, and dietary fibers (DF) could alleviate obesity and metabolic syndrome by regulating intestinal microbiota. We developed a functional fiber (FF) with a synthetic mixture of polysaccharides, high viscosity, water-binding capacity, swelling capacity, and fermentability. This study aimed to investigate the effect of FF on obesity and to determine its prevention of obesity by modulating the gut microbiota. Physiological, histological, and biochemical parameters, and gut microbiota composition were investigated in the following six groups: control group (Con), high-fat diet group (HFD), low-fat diet group (LFD, conversion of HFD to LFD), high-fat +8% FF group (8% FF), high-fat +12% FF group (12% FF), and high-fat +12% FF + antibiotic group (12% FF + AB). The results demonstrated that 12% FF could promote a reduction in body weight and epididymal adipocyte area, augment insulin sensitivity, and stimulate heat production from brown adipose tissue (BAT) (p< 0.05). Compared with the HFD, 12% FF could also significantly improve the intestinal morphological integrity, attenuate systemic inflammation, promote intestinal microbiota homeostasis, and stabilize the production of short-chain fatty acids (SCFAs) (p< 0.05). Consistent with the results of 12% FF, the LFD could significantly reduce the body weight and epididymal adipocyte area relative to the HFD (p< 0.05), but the LFD and HFD showed no significant difference (p> 0.05) in the level of inflammation and SCFAs. Meanwhile, 12% FF supplementation showed an increase (p< 0.05) in the abundance of theBifidobacterium,Lactococcus, andCoprococcusgenus in the intestine, which had a negative correlation with obesity and insulin resistance. Additionally, the treatment with antibiotics (12% FF + AB) could inhibit the effect of FF in the HFD. The Kyoto Encyclopedia of Genes and Genomes (KEGG) function prediction revealed that 12% FF could significantly
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