Hong Yang1, Li-na Xu, Cheng-yan He, Xin Liu, Rou-yu Fang, Tong-hui Ma. 1. School of Life Sciences, Liaoning Provincial Key Laboratory of Biotechnology and Drug Discovery, Liaoning Normal University, Dalian 116029, China. hyanglnnu@gmail.com
Abstract
AIM: To clarify whether CFTR is a molecular target of intestinal fluid secretion caused by the anthraquinone compounds from laxative herbal plants. METHODS: A cell-based fluorescent assay to measure I(-) influx through CFTR chloride channel. A short-circuit current assay to measure transcellular Cl(-) current across single layer FRT cells and freshly isolated colon mucosa. A closed loop experiment to measure colon fluid secretion in vivo. RESULTS: Anthraquinone compounds rhein, aloe-emodin and 1,8-dihydroxyanthraquinone (DHAN) stimulated I(-) influx through CFTR chloride channel in a dose-dependent manner in the presence of physiological concentration of cAMP. In the short-circuit current assay, the three compound enhanced Cl(-) currents in epithelia formed by CFTR-expressing FRT cells with EC(50) values of 73 ± 1.4, 56 ± 1.7, and 50 ± 0.5 μmol/L, respectively, and Rhein also enhanced Cl(-) current in freshly isolated rat colonic mucosa with a similar potency. These effects were completely reversed by the CFTR selective blocker CFTR(inh)-172. In in vivo closed loop experiments, rhein 2 mmol/L stimulated colonic fluid accumulation that was largely blocked by CFTR(inh)-172. The anthraquinone compounds did not elevate cAMP level in cultured FRT cells and rat colonic mucosa, suggesting a direct effect on CFTR activity. CONCLUSION: Natural anthraquinone compounds in vegetable laxative drugs are CFTR potentiators that stimulated colonic chloride and fluid secretion. Thus CFTR chloride channel is a molecular target of vegetable laxative drugs.
AIM: To clarify whether CFTR is a molecular target of intestinal fluid secretion caused by the anthraquinone compounds from laxative herbal plants. METHODS: A cell-based fluorescent assay to measure I(-) influx through CFTRchloride channel. A short-circuit current assay to measure transcellular Cl(-) current across single layer FRT cells and freshly isolated colon mucosa. A closed loop experiment to measure colon fluid secretion in vivo. RESULTS:Anthraquinone compounds rhein, aloe-emodin and 1,8-dihydroxyanthraquinone (DHAN) stimulated I(-) influx through CFTRchloride channel in a dose-dependent manner in the presence of physiological concentration of cAMP. In the short-circuit current assay, the three compound enhanced Cl(-) currents in epithelia formed by CFTR-expressing FRT cells with EC(50) values of 73 ± 1.4, 56 ± 1.7, and 50 ± 0.5 μmol/L, respectively, and Rhein also enhanced Cl(-) current in freshly isolated ratcolonic mucosa with a similar potency. These effects were completely reversed by the CFTR selective blocker CFTR(inh)-172. In in vivo closed loop experiments, rhein 2 mmol/L stimulated colonic fluid accumulation that was largely blocked by CFTR(inh)-172. The anthraquinone compounds did not elevate cAMP level in cultured FRT cells and ratcolonic mucosa, suggesting a direct effect on CFTR activity. CONCLUSION: Natural anthraquinone compounds in vegetable laxative drugs are CFTR potentiators that stimulated colonic chloride and fluid secretion. Thus CFTRchloride channel is a molecular target of vegetable laxative drugs.
Authors: Tonghui Ma; Jay R Thiagarajah; Hong Yang; Nitin D Sonawane; Chiara Folli; Luis J V Galietta; A S Verkman Journal: J Clin Invest Date: 2002-12 Impact factor: 14.808