丁酸盐
麸皮
多酚
化学
势垒函数
紧密连接
细胞凋亡
生物化学
膳食纤维
食品科学
下调和上调
粪便
肠道菌群
小肠
封堵器
细胞生物学
姜黄素
短链脂肪酸
纤维
信号转导
移植
功能(生物学)
抗性淀粉
肠粘膜
生物
肠绒毛
饮食性肥胖
微生物学
免疫系统
作者
Bing Zheng,Li Liu,Jun Li,Yi Chen,Jianhua Xie,Xiaole Zhao,Jinhua Feng,Qing Zhou,Xiaobo Hu,Qiang Yu
标识
DOI:10.1021/acs.jafc.5c12877
摘要
Bound polyphenols (BPs) are critical to the anti-obesity effects of dietary fiber. However, their role in dietary-fiber-mediated intestinal barrier protection remains unclear. In this study, we demonstrated that rice bran insoluble dietary fiber (RIDF) alleviated intestinal barrier damage in high-fat-diet (high-fat diet)-fed mice, and this beneficial effect was dependent on BPs, as it was attenuated in mice treated with polyphenol-removed dietary fiber (RIDF_DF). Furthermore, fecal supernatant transplantation from RIDF-treated (not RIDF_DF-treated) mice alleviated obesity and reshaped the gut microbiota in recipient mice. Additionally, the fecal supernatant enhanced the intestinal barrier function and augmented the synthesis of short-chain fatty acids. Notably, butyrate administration upregulated intestinal tight junction proteins in Caco-2 cells and HFD-fed mice and increased Oscillospira abundance. Mechanistically, butyrate inhibited apoptosis and promoted autophagy, accompanied by alterations in the AMPK-Akt signaling pathway. These results indicate that BPs contribute to the ameliorative effect of RIDF on intestinal damage.
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