Abstract
BackgroundThe calcium-sensing receptor (CaSR) has been localized and characterized in numerous tissues throughout the body. In the mammalian gastrointestinal tract, the CaSR is known to act as a nutrient sensor and has recently been found to play a role in intestinal fluid and electrolyte balance. This study aims to demonstrate the functionality of the CaSR as a modulator of fluid secretion and absorption along the small intestine.MethodsSmall intestine regions (proximal, middle, and distal) were isolated from Sprague Dawley rats and loaded into an ex vivo intestinal perfusion device that provides independent intraluminal and extraluminal (serosa/basolateral) perfusion. The regions were perfused with 5 and 7 mM of Ca2+, both in the presence and absence of forskolin (FSK), a potent secretagogue. Control experiments were conducted with intraluminal perfusate containing standard Ringer-HEPES buffer with a physiological concentration of Ca2+ (1 mM). A second set of comparison experiments was performed with intraluminal perfusates containing AC-265347, a CaSR activator and agonist, in the presence of FSK. In all experimental conditions, the intraluminal perfusate contained fluorescein isothiocyanate (FITC)-inulin, a nonabsorbable fluorescent marker of secretion and/or absorption. Intraluminal fluorescence signal was utilized as a measure of water movement at the start of the experiment and every 15 min for 90 min.ResultsUnder physiological conditions, increasing the concentration of Ca2+ in the luminal perfusate reduced intestinal fluid secretion in all regions. At a Ca2+ concentration of 7 mM, net fluid absorption was observed in all regions. In the presence of FSK, 5 mM Ca2+ significantly decreased fluid secretion and 7 mM Ca2+ abolished FSK-induced fluid secretion. Intraluminal perfusion with 5 mM Ca2+ was as effective as AC-265347, in reducing secretagogue-induced fluid hypersecretion in the proximal and middle regions.ConclusionThis study concludes that apical CaSR is active along the small intestine. Its activation by Ca2+ and/or calcimimetics reduces fluid secretion in a dose-dependent manner, with higher Ca2+ concentrations, or application of a calcimimetic, leading to fluid absorption. We furthermore show that, in the presence of FSK, receptor activation abates FSK secretagogue-induced fluid secretion. This presents a new therapeutic target to address secretory diarrheal illnesses.
Highlights
The extracellular calcium-sensing receptor (CaSR) is a classic transmembrane G-protein coupled receptor (GPCR) that was first identified in the parathyroid gland, where it plays an important role in total body calcium (Ca2+) homeostasis (Brown et al, 1993; Brown and MacLeod, 2001)
The CaSR has been shown to be activated by Ca2+, amino acids, polyamines, and calcimimetics, resulting in net inhibition of fluid secretion into the lumen (Cheng et al, 2004; Geibel et al, 2006)
An ex vivo perfusion device capable of providing real-time data on intestinal fluid absorption and secretion is used to examine the functional role of the CaSR on the apical surface along the length of the small intestine
Summary
The extracellular CaSR is a classic transmembrane GPCR that was first identified in the parathyroid gland, where it plays an important role in total body calcium (Ca2+) homeostasis (Brown et al, 1993; Brown and MacLeod, 2001). The CaSR functions as a nutrient sensor and provides a mechanism to signal to the enteric nervous system and coordinate food delivery and gut motility in order to maximize nutrient absorption (Tang et al, 2016). It has been implicated in intestinal ion transport and the regulation of bicarbonate secretion (Xie et al, 2014; Tang et al, 2015). This study aims to demonstrate the functionality of the CaSR as a modulator of fluid secretion and absorption along the small intestine
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