Department of Biochemistry (U38-FCT), Faculty of Medicine, University of Porto, 4200-319 Porto, Portugal.
J Membr Biol. 2011 Mar;240(1):35-46. doi: 10.1007/s00232-011-9340-3. Epub 2011 Feb 1.
Butyrate (BT) is one of the main end products of anaerobic bacterial fermentation of dietary fiber within the human colon. Among its recognized effects, BT inhibits colon carcinogenesis. Our aim was to characterize uptake of BT by two nontransformed intestinal epithelial cell lines: rat small intestinal epithelial (IEC-6) and fetal human colonic epithelial (FHC) cells. Uptake of ¹⁴C-BT by IEC-6 cells was (1) time- and concentration-dependent; (2) pH-dependent; (3) Na+-, Cl⁻- and energy-dependent; (4) inhibited by BT structural analogues; (5) sensitive to monocarboxylate transporter 1 (MCT1) inhibitors; and (6) insensitive to DIDS and amiloride. IEC-6 cells express both MCT1 and Na+-coupled monocarboxylate transporter 1 (SMCT1) mRNA. We conclude that ¹⁴C-BT uptake by IEC-6 cells mainly involves MCT1, with a small contribution of SMCT1. Acute exposure to ethanol, acetaldehyde, indomethacin, resveratrol and quercetin reduced ¹⁴C-BT uptake. Chronic exposure to resveratrol and quercetin reduced ¹⁴C-BT uptake but had no effect on either MCT1 or SMCT1 mRNA levels. Uptake of ¹⁴C-BT by FHC cells was time- and concentration-dependent but pH-, Na+-, Cl⁻- and energy-independent and insensitive to BT structural analogues and MCT1 inhibitors. Although MCT1 (but not SMCT1) mRNA expression was found in FHC cells, the characteristics of ¹⁴C-BT uptake by FHC cells did not support either MCT1 or SMCT1 involvement. In conclusion, uptake characteristics of ¹⁴C-BT differ between IEC-6 and FHC cells. IEC-6 cells demonstrate MCT1- and SMCT1-mediated transport, while FHC cells do not.
丁酸(BT)是人体结肠内膳食纤维厌氧细菌发酵的主要终产物之一。BT 的公认作用之一是抑制结肠癌的发生。我们的目的是研究两种未转化的肠上皮细胞系:大鼠小肠上皮(IEC-6)和胎儿人结肠上皮(FHC)细胞对 BT 的摄取。IEC-6 细胞对 ¹⁴C-BT 的摄取(1)具有时间和浓度依赖性;(2)依赖于 pH 值;(3)依赖于 Na⁺、Cl⁻和能量;(4)被 BT 结构类似物抑制;(5)对单羧酸转运蛋白 1(MCT1)抑制剂敏感;(6)对 DIDS 和阿米洛利不敏感。IEC-6 细胞表达 MCT1 和 Na⁺偶联单羧酸转运蛋白 1(SMCT1)mRNA。我们得出结论,IEC-6 细胞摄取 ¹⁴C-BT 主要涉及 MCT1,而 SMCT1 的贡献较小。急性暴露于乙醇、乙醛、吲哚美辛、白藜芦醇和槲皮素会降低 ¹⁴C-BT 的摄取。慢性暴露于白藜芦醇和槲皮素会降低 ¹⁴C-BT 的摄取,但对 MCT1 或 SMCT1 mRNA 水平没有影响。FHC 细胞对 ¹⁴C-BT 的摄取具有时间和浓度依赖性,但依赖于 pH 值、Na⁺、Cl⁻和能量,对 BT 结构类似物和 MCT1 抑制剂不敏感。虽然在 FHC 细胞中发现了 MCT1(但不是 SMCT1)mRNA 表达,但 ¹⁴C-BT 摄取的特征不支持 MCT1 或 SMCT1 的参与。总之,IEC-6 和 FHC 细胞对 ¹⁴C-BT 的摄取特征不同。IEC-6 细胞表现出 MCT1 和 SMCT1 介导的转运,而 FHC 细胞则没有。
