Na+/葡萄糖在结肠腺癌细胞ht29cl中的共转运。19A: cAMP的作用。

Acta physiologica Scandinavica Pub Date : 1997-06-01
M Hemlin, X Huang
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引用次数: 0

摘要

本研究的目的是研究早期发现的cAMP刺激激活肠上皮内Na+/葡萄糖共运输。Western blotting结果显示,Na+/葡萄糖共转运蛋白在结肠癌细胞系HT29 cl.19A中存在。这种类型的单层细胞表现出葡萄糖运输,被0.5 mM的苯连菌素(Na+/葡萄糖共运输的特异性抑制剂)抑制。刷边ht29cl膜泡。19A细胞表现出Na(+)梯度依赖性葡萄糖转运,dbcamp预处理(二丁基ladenosine 3',5'-环单磷酸二丁基ladenosine 3',5'-环单磷酸二丁基ladenosine)刺激细胞转运。在Ussing室中,葡萄糖(10 mM)意外地对ht29cl的短路电流(Isc)缺乏刺激作用。19A单层在控制情况下。在dbcamp刺激的单分子层中,葡萄糖诱导了由刺激和抑制成分组成的复杂的isc反应,通常导致lsc的“净”刺激。Phlorizin (0.5 mM)不能阻止葡萄糖的刺激作用。甘露醇、丙氨酸、果糖、乙醇(苯并菌素的溶剂)和不可代谢的葡萄糖类似物3-o-甲基- α -葡萄糖吡喃苷以与苯并菌素类似的方式抑制Isc。在[14C]葡萄糖积累实验和特别设计的Ussing室中研究了人类结肠活检中的葡萄糖转运。在这两个实验中都没有葡萄糖吸收的迹象。我们得出结论:(1)人类结肠缺乏Na+/葡萄糖转运;(2)HT29 cl。19A细胞表现出由cAMP刺激的Na+/葡萄糖共转运(3),但这种机制似乎与“正常”小肠的Na+/葡萄糖共转运不同。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Na+/glucose cotransport in the colonic adenocarcinoma cell line HT29 cl.19A: effect of cAMP.

The aim of the present study was to investigate the earlier finding that cAMP stimulation activates Na+/glucose cotransport in intestinal epithelia. Western blotting demonstrated the existence of Na+/glucose cotransporters in the colonic adenocarcinoma cell line HT29 cl.19A. Monolayers of this cell type showed a glucose transport, which was inhibited by 0.5 mM phlorizin (specific inhibitor of Na+/glucose cotransport). Brush border membrane vesicles of HT29 cl.19A cells exhibited a Na(+)-gradient dependent glucose transport, which was stimulated by DbcAMP-pretreatment (dibutyryladenosine 3',5'-cyclic monophosphate) of the cells. In the Ussing chamber, glucose (10 mM) unexpectedly lacked stimulatory effect on short circuit current (Isc) in HT29 cl.19A monolayers in the control situation. In DbcAMP-stimulated monolayers, glucose induced a complex Isc-response consisting of both stimulatory and inhibitory components, usually leading to a 'net' stimulation of lsc. Phlorizin (0.5 mM) did not prevent the stimulatory effect of glucose. Mannitol, alanine, fructose, ethanol (solvent for phlorizin) and the non-metabolizable glucose analogue 3-o-methyl-alpha-glucopyranoside inhibited Isc in a similar fashion as did phlorizin. Glucose transport in human colon biopsies were studied both in [14C]glucose accumulation experiments and in a specially designed Ussing chamber. There were no indications of glucose absorption in neither of these experiments. We conclude: (1) The human colon lacks Na+/glucose transport, (2) HT29 cl.19A cells exhibit Na+/glucose cotransport, which is stimulated by cAMP, (3) but this mechanism seem to be of a different type from the Na+/glucose cotransport of the 'normal' small intestine.

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