Abstract
Increased intestinal chloride secretion through chloride channels, such as the cystic fibrosis transmembrane conductance regulator (CFTR), is one of the major molecular mechanisms underlying enterotoxigenic diarrhea. It has been demonstrated in the past that the intracellular energy sensing kinase, the AMP-activated protein kinase (AMPK), can inhibit CFTR opening. We hypothesized that pharmacological activation of AMPK can abrogate the increased chloride flux through CFTR occurring during cholera toxin (CTX) mediated diarrhea.Chloride efflux was measured in isolated rat colonic crypts using real-time fluorescence imaging. AICAR and metformin were used to activate AMPK in the presence of the secretagogues CTX or forskolin (FSK). In order to substantiate our findings on the whole tissue level, short-circuit current (SCC) was monitored in human and murine colonic mucosa using Ussing chambers. Furthermore, fluid accumulation was measured in excised intestinal loops.CTX and forskolin (FSK) significantly increased chloride efflux in isolated colonic crypts. The increase in chloride efflux could be offset by using the AMPK activators AICAR and metformin. In human and mouse mucosal sheets, CTX and FSK increased SCC. AICAR and metformin inhibited the secretagogue induced rise in SCC, thereby confirming the findings made in isolated crypts. Moreover, AICAR decreased CTX stimulated fluid accumulation in excised intestinal segments.The present study suggests that pharmacological activation of AMPK effectively reduces CTX mediated increases in intestinal chloride secretion, which is a key factor for intestinal water accumulation. AMPK activators may therefore represent a supplemental treatment strategy for acute diarrheal illness.
Highlights
Acute diarrheal illness (ADI) still represents a major health care concern
FSK (5 mM) incubated crypts treated with CFTRInh172 (10 mM), a small molecule inhibitor of CFTR, significantly reduced chloride secretion (FSK+CFTRInh172: 0.46 DAFU/sec60.08, n = 17; p,0.0001) The addition of AICAR, showed no further decrease in chloride secretion, suggesting that AMPactivated protein kinase (AMPK) exerts its inhibitory effects on chloride secretion mostly via inhibition of CFTR. (FSK+CFTRInh172+AICAR: 0.48 DAFU/ sec60.04, n = 14; p = 0.84)(Figure 2)
Enhanced chloride efflux through intestinal CFTR creates the osmotic driving force underlying intestinal water accumulation in choleraic diarrhea
Summary
Acute diarrheal illness (ADI) still represents a major health care concern. Children are vulnerable to the lethal effects of ADI: one out of five deaths in children (,5 years) is caused by diarrhea, which is, in theory, preventable [1]. The molecular mechanism underlying many enterotoxin mediated secretory diarrhea entities is an increase in intestinal chloride secretion through apical chloride channels, such as the cystic fibrosis transmembrane conductance regulator (CFTR) [2]. Cholera toxin (CTX) exerts its pathophysiological effects by raising the intracellular levels of cAMP in the enterocyte, resulting in protein kinase A (PKA) activation and subsequent CFTR opening and trafficking [2]. This toxin-mediated modulation of physiological intestinal ion transport mechanisms increases luminal osmolarity, which in turn causes fulminant water loss. In the current report we investigated an alternative scientific approach to inhibit the augmented enterotoxin induced chloride flux by pharmacological modulation of the ubiquitous AMPactivated protein kinase (AMPK)
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