In exocrine pancreas, acini release ATP and the excurrent ducts express several types of purinergic P2 receptors. Thereby, ATP, or its hydrolytic products, might play a role as a paracrine regulator between acini and ducts. The aim of the present study was to elucidate whether this acinar-ductal signalling is regulated by nucleotidase(s), and to characterize and localize one of the nucleotidases within the rat pancreas. Using RT-PCR and Western blotting we show that pancreas expresses the full length ecto-nucleoside triphosphate diphosphohydrolase, CD39. Immunofluorescence shows CD39 localization on basolateral membranes of acini and intracellularly. In small intercalated/ interlobular ducts, CD39 immunofluorescence was localized on the luminal membranes, while in larger ducts it was localized on the basolateral membranes. Upon stimulation with cholecystokinin-octapeptide-8 (CCK-8), acinar CD39 relocalizes in clusters towards the lumen and is secreted. As a result, pancreatic juice collected from intact pancreas stimulated with CCK-8 contained nucleotidase activity, including that of CD39, and no detectable amounts of ATP. Anti-CD39 antibodies detected the full length (78 kDa) CD39 in pancreatic juice. This CD39 was confined only to the particulate and not to the soluble fraction of CCK-8-stimulated secretion. No CD39 activity was detected in secretion stimulated by secretin. The role of secreted particulate, possibly microsomal, CD39 would be to regulate intraluminal ATP concentrations within the ductal tree. In conclusion, we show a novel inducible release of full length particulate CD39, and propose its role in the physiological context of pancreatic secretion.
The Ca2+ content of pancreatic juice is closely regulated by yet unknown mechanisms. One aim of the present study was to find whether rat pancreatic ducts have a Na+/Ca2+ exchanger, as found in some Ca2+ transporting epithelia. Another aim was to establish whether the exchanger is regulated by hormones/agonists affecting pancreatic secretion. Whole pancreas, pure pancreatic acini and ducts were obtained from rats and used for RT-PCR and Western blot analysis, immunohistochemistry and intracellular Ca2+ measurements using Fura-2. RT-PCR analysis indicated Na+/Ca2+-exchanger isoforms NCX1.3 and NCX1.7 in acini and pancreas. Western blot with NCX1 antibody identified bands of 70, 120 and 150 kDa in isolated ducts, acini and pancreas. Immunofluorescence experiments showed the Na+/Ca2+ exchanger on the basolateral membrane of acini and small intercalated/intralobular ducts, but in larger intralobular/extralobular ducts the exchanger was predominantly on the luminal membrane. Na+/Ca2+ exchange in ducts was monitored by changes in intracellular Ca2+ activity upon reversal of the Na+ gradient. Secretin (1 nM) and carbachol (1 mM) reduced Na+/Ca2+ exchange by 40% and 51%, respectively. Insulin (1 nM) increased Na+/Ca2+ exchange by 230% within 5 min. The present study shows that pancreatic ducts express the Na+/Ca2+ exchanger. Its distinct localization along the ductal tree and regulation by secretin, carbachol and insulin indicate that ducts might be involved in regulation of Ca2+ concentrations in pancreatic juice.
In exocrine pancreas, acini release ATP and the excurrent ducts express several types of purinergic P2 receptors. Thereby, ATP, or its hydrolytic products, might play a role as a paracrine regulator between acini and ducts. The aim of the present study was to elucidate whether this acinar-ductal signalling is regulated by nucleotidase(s), and to characterize and localize one of the nucleotidases within the rat pancreas. Using RT-PCR and Western blotting we show that pancreas expresses the full length ecto-nucleoside triphosphate diphosphohydrolase, CD39. Immunofluorescence shows CD39 localization on basolateral membranes of acini and intracellularly. In small intercalated/ interlobular ducts, CD39 immunofluorescence was localized on the luminal membranes, while in larger ducts it was localized on the basolateral membranes. Upon stimulation with cholecystokininoctapeptide-8 (CCK-8), acinar CD39 relocalizes in clusters towards the lumen and is secreted. As a result, pancreatic juice collected from intact pancreas stimulated with CCK-8 contained nucleotidase activity, including that of CD39, and no detectable amounts of ATP. Anti-CD39 antibodies detected the full length (78 kDa) CD39 in pancreatic juice. This CD39 was confined only to the particulate and not to the soluble fraction of CCK-8-stimulated secretion. No CD39 activity was detected in secretion stimulated by secretin. The role of secreted particulate, possibly microsomal, CD39 would be to regulate intraluminal ATP concentrations within the ductal tree. In conclusion, we show a novel inducible release of full length particulate CD39, and propose its role in the physiological context of pancreatic secretion.
The imidazoline receptor agonist moxonidine has been recently introduced as an antihypertensive therapy. Imidazoline specific binding sites have also been found in the kidney. Moxonidine induced natriuresis and diuresis in clearance studies in rats. Related substances such as various guanidinium derivatives have been shown to inhibit Na+/H+ exchange in several preparations. We therefore examined whether the renal effects of moxonidine could be mediated by an inhibition of the Na+/H+ exchanger. Intracellular pH (pHi) was measured microfluorimetrically with BCECF in proximal LLC-PK1 cells and in the principal cells of rat cortical collecting ducts (CCD). In LLC-PK1 cells moxonidine (10 mumol/liter) had no effect on the basal pH1; however, it reduced the Na+/H+ activity reversibly by 43 +/- 4% (N = 26) when the exchanger was activated by cellular acidification. In rat CCD cells moxonidine slightly decreased basal pHi by 0.08 +/- 0.03 pH units (N = 12). After acidification the recovery rate of pHi was reduced with moxonidine by 45 +/- 6% (N = 18). The effects of moxonidine could be mimicked in both cell types by inhibitors of the Na+/H+ exchanger (HOE 694, amiloride). In the presence of the imidazoline receptor antagonist idazoxan (10 mumol/liter) the effects of moxonidine were almost completely inhibited. The alpha 2-antagonist yohimbine (10 mumol/liter) did not significantly alter the effects of moxonidine in both cell types. These data suggest that in LLC-PK1 and in rat CCD cells, Na+/H+ is inhibited by moxonidine via an activation of the imidazoline receptor.
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