Department of Physiology and Pathophysiology, School of Basic Medical Sciences, Fudan University, Shanghai, China.
Department of Chemistry, Fudan University, Shanghai, China.
J Nutr Biochem. 2021 Nov;97:108803. doi: 10.1016/j.jnutbio.2021.108803. Epub 2021 Jun 18.
With its unique cellular plasticity, the small intestinal mucosa exhibits efficient adaptability upon feeding. However, little is known about the effect of high-fat diet (HFD) feeding on this adaption and its underlying mechanism. Herein, we demonstrated that the cell proliferation ability, mitochondrial morphology, and global transcriptomic profile of the small intestine exhibited a prominent discrepancy between the fasted and refed state in mice, which were markedly attenuated by long-term HFD feeding. The retinol (Vitamin A, VA) metabolism pathway was dramatically affected by HFD feeding in the small intestine. Both VA and its active metabolite retinoic acid (RA), with the administration of lipid micelles, promoted the expression of genes involved in lipid absorption and suppressed the expression of genes involved in the cell proliferation of intestinal organoids. Via chip-qPCR and RT-qPCR, genes involved in lipid metabolism and cell proliferation were target genes of RARα/RXRα in small intestinal organoids treated with RA and lipid micelles. The role of VA in the in vivo attenuation of intestinal adaptability, in response to HFD, was evaluated. Mice were fed a normal chow diet, HFD, or HFD diet supplemented with additional 1.5-fold VA for 12 weeks. VA supplementation in HFD accelerated the attenuation of intestinal adaptability upon feeding induced by HFD, promoted lipid absorption gene expression, and increased body weight and serum cholesterol levels. In conclusion, the discrepancy of the small intestine between the fasted and refed state was dramatically attenuated by HFD feeding, in which VA and RA might play important roles.
小肠黏膜具有独特的细胞可塑性,在进食后表现出高效的适应性。然而,关于高脂肪饮食(HFD)喂养对这种适应性的影响及其潜在机制知之甚少。在此,我们发现在小鼠中,空腹和再进食状态下小肠的细胞增殖能力、线粒体形态和全转录组谱存在显著差异,而长期 HFD 喂养则明显减弱了这种差异。HFD 喂养显著影响了小肠中的视黄醇(维生素 A,VA)代谢途径。VA 及其活性代谢产物视黄酸(RA),通过脂质胶束给药,促进了参与脂质吸收的基因的表达,并抑制了参与肠类器官细胞增殖的基因的表达。通过芯片 qPCR 和 RT-qPCR,发现 RA 和脂质胶束处理的小肠类器官中,参与脂质代谢和细胞增殖的基因是 RARα/RXRα 的靶基因。评估了 VA 在体内对 HFD 引起的肠道适应性减弱的作用。将小鼠分别用正常饲料、HFD 或 HFD 饲料加 1.5 倍 VA 喂养 12 周。HFD 补充 VA 加速了 HFD 喂养引起的肠道适应性减弱,促进了脂质吸收基因的表达,并增加了体重和血清胆固醇水平。总之,HFD 喂养显著减弱了小肠在空腹和再进食状态之间的差异,VA 和 RA 可能在此过程中发挥了重要作用。
