Fructo-Oligosaccharides Enhance the Expression of Genes Related to Focal Adhesion- and Inflammation-Pathways in Small Intestinal Absorptive Caco-2 Cells.
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Abstract
Recently, we demonstrated, using mRNA microarray analysis, that fructo-oligosaccharides (FOS), which are indigestible carbohydrates, enhanced the expression of several inflammation-related genes, such as CLEC7A, CCL2, ITGA2, and F3, by ≥4-fold in Caco-2 cells, a model of human intestinal absorptive cells, independently of intestinal bacteria (Harasawa A et al., Nutrition, 112140, 2023). However, whether FOS enhances the expression of genes in other pathways, particularly the non-inflammatory pathways, in Caco-2 cells has not been investigated. Here, we explored the pathways affected by FOS, based on identification of differentially expressed genes with ≥2-fold change (linear-fold change) in expression upon FOS treatment. Caco-2 cells were cultured for 24 h in high glucose-Dulbecco's modified Eagle medium supplemented with 10% fetal calf serum containing FOS. The differentially expressed genes in these cells, identified using mRNA microarray analysis, were categorized using the pathway analysis and subsequently upregulated genes in typical pathways were subjected to protein network analysis. RT-qPCR was performed to validate the expression of selected genes. Treatment with 10% FOS enhanced the expression of a set of genes, such as ITGB8, ITGA6, SPP1, CAV1, LAMA3, ARHGAP5, and LAMC2, in the focal adhesion pathway. In addition, this treatment increased the expression of many genes involved in various inflammatory pathways, such as TNF, ITGA5, ITGB3, PTGS2, FGF2, FLNC, EDNRB, VEGFA, and MMP13. Protein network analysis showed that genes in the focal adhesion and endothelin pathways induced by FOS were closely associated with each other. FOS treatment of human intestinal absorptive-like cells enhances a set of genes in the focal adhesion and inflammation pathways.
最近,我们利用mRNA微阵列分析证明,果寡糖(FOS)是一种不可消化的碳水化合物,在Caco-2细胞(一种独立于肠道细菌的人类肠道吸收细胞模型)中,可将几种炎症相关基因(如CLEC7A、CCL2、ITGA2和F3)的表达增强≥4倍(Harasawa a et al., Nutrition, 112140, 2023)。然而,在Caco-2细胞中,FOS是否增强了其他途径,特别是非炎症途径中基因的表达尚未被研究。在这里,我们通过鉴定在FOS处理后表达≥2倍变化(线性倍变化)的差异表达基因,探索了受FOS影响的途径。Caco-2细胞在添加10%含FOS的胎牛血清的高葡萄糖- dulbecco改良Eagle培养基中培养24 h。这些细胞中的差异表达基因,通过mRNA微阵列分析鉴定,通过途径分析进行分类,随后对典型途径中的上调基因进行蛋白质网络分析。采用RT-qPCR验证所选基因的表达。10% FOS处理可增强局灶黏附通路中ITGB8、ITGA6、SPP1、CAV1、LAMA3、ARHGAP5和LAMC2等一系列基因的表达。此外,这种治疗增加了参与各种炎症途径的许多基因的表达,如TNF、ITGA5、ITGB3、PTGS2、FGF2、FLNC、EDNRB、VEGFA和MMP13。蛋白网络分析表明,FOS诱导的局灶黏附通路和内皮素通路的基因相互密切相关。FOS处理人类肠道吸收样细胞增强了局灶性粘连和炎症通路中的一组基因。
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The Journal of Nutritional Science and Vitaminology is an international medium publishing in English of original work in all branches of nutritional science, food science and vitaminology from any country.
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