Cyclic-AMP and pancreatic bicarbonate secretion in response to secretin in dogs.

In anesthetized dogs given secretin intravenously in doses doubling every 60 min and ranging from 0.5 to 8 units per kg body weight per hr, cyclic-AMP levels in pancreatic tissue rose continuously, whereas DNA concentrations were slightly decreased. Bicarbonate concentrations and bicarbonate outputs, cyclic-AMP tissue concentrations and bicarbonate outputs, as well as cyclic-AMP tissue concentrations and juice outputs, were significantly correlated. In conscious pancreatic fistula dogs, there was also a significant correlation between cyclic-AMP and bicarbonate concentrations and outputs in the pancreatic juice after stimulation by exogenous secretin. Accordingly, enhanced release of endogenous secretin achieved by intraduodenal acidification led to a dose-dependent increase in bicarbonate and cyclic-AMP outputs in both conscious and anesthetized dogs. Phosphodiesterase inhibitors (aminophylline, caffeine, and papaverine) given alone to the conscious dogs did not initiate pancreatic bicarbonate secretion, but they potentiated bicarbonate responses to exogenous secretin. These data suggest that cyclic-AMP plays a part in secretin-stimulated pancreatic secretion.     

Cyclic nucleotides and calcium in human lymphocytes induced to divide

Intracellular concentrations of cyclic adenosine 3'-5' monophosphate (cAMP) and cyclic guanosine 3'-5' monophosphate (cGMP) were measured in human lymphocytes induced to divide by the addition of lectins, 12-O-tetra-decanoylphorbol-13-acetate (TPA) and the calcium ionophore A 23187. cGMP levels rose within minutes without concomitant alterations in cAMP concentration. The cAMP and cGMP levels rose during the prereplicative and replicative phases respectively. Under calcium depleting conditions, both the fluctuations in cyclic nucleotide levels and the increase in [3H[ thymidine incorporation into DNA were abolished, suggesting a role for calcium ions in the regulation of lymphocyte proliferation.     

Cyclic AMP-dependent protein kinase in canine pancreatic rough endoplasmic reticulum

A canine pancreas homogenate was subfractionated by several differential centrifugation steps. The distribution of cAMP-dependent protein kinase in the various fractions was monitored by assaying [3H]cAMP binding and photo-cross-linking of the regulatory subunits of the enzyme (RI and RII) with radiolabeled 8-azido-cAMP. The distribution of the kinase was also compared to that of markers for the plasma membrane, the endoplasmic reticulum and the cytosol. While our results confirm previous studies suggesting the presence of cyclic AMP-dependent protein kinase in the cytosol and Golgi, a significant amount of the total [3H] cAMP binding and photolabeled R subunits (both RI and RII) were found in rough microsomes (RM). The association is relatively resistant to extraction with EDTA, low and high ionic strength solutions. These extractions unmasked several new phosphorylation substrates in the "stripped" RM that were inaccessible in the RM, possibly because they were covered by ribosomes or peripheral membrane proteins. RII with a molecular mass of 52 kDa (RII-52 kDa) was the predominant RII found in the cytosolic fraction, whereas RII-52 kDa and RII with a molecular mass of 54 kDa (RII-54 kDa) were approximately equally enriched in the RM fraction. The mobility of the RII-52 kDa-photolabeled band could be shifted to the mobility of the RII-54 kDa band by phosphorylation with purified catalytic subunit and ATP, indicating that they represent "dephospho" and "phospho" forms of RII, respectively. A more precise localization to the rough endoplasmic reticulum was accomplished by isopycnic floatation in sucrose gradients. The enzyme cobanded at the density of rough microsomes and shifted to the lower density of "stripped" microsomes after treatment with puromycin/high salt, which specifically removes ribosomes.     

Cyclic GMP inhibits protein kinase C-mediated secretion in rat pancreatic acini

Dibutyryl cyclic GMP (Bu2cGMP) inhibited agonist-induced secretion of amylase from isolated rat pancreatic acini. In contrast to previous studies, this inhibitory action was not confined to butyryl derivatives of cyclic GMP, since the membrane-permeant cyclic GMP analogues Bu2cGMP and cyclic 8-bromo-GMP (8-Br-cGMP) were equipotent (IC50 2 nM) in their inhibition of amylase secretion stimulated by cholecystokinin-(26-33)-octapeptide (CCK8): at extracellular concentrations up to 1 mM, cyclic GMP itself was devoid of inhibitory activity. Both Bu2cGMP and 8-Br-cGMP also potently inhibited secretion stimulated by 4 beta-phorbol 12-myristate 13-acetate (PMA) (IC50 6 nM), but only partially inhibited responses elicited by bethanechol or bombesin and were without effect on A23187-evoked secretion. Furthermore, agents that are known to raise intracellular cyclic GMP levels (MB22948 (2-o-propoxyphenyl-8-azapurin-6-one) or nitroprusside) or antagonize the actions of protein kinase C (4 alpha-PMA or staurosporine), also inhibited CCK8- or PMA-stimulated secretion but not secretion elicited by bombesin, bethanechol, or A23187. It is concluded from these and other observations reported here that protein kinase C is the major intracellular mediator of amylase secretion stimulated by CCK8 and that this pathway may be regulated by cyclic GMP at a step that follows protein kinase C activation.     

Cyclic AMP raises cytoplasmic calcium in pancreatic alpha 2-cells by mobilizing calcium incorporated in response to glucose

The cytoplasmic Ca2+ concentration ([Ca2+]i) was monitored in individual guinea-pig pancreatic alpha 2-cells exposed to modulators of glucagon release. Addition of the stimulatory amino acid arginine resulted in a sustained increase in [Ca2+]i, whereas the inhibitor glucose had the opposite effect. Epinephrine, the beta-adrenergic agonist isoproterenol, the adenylate cyclase activator forskolin and 8-bromo-cAMP transiently raised [Ca2+]i provided that the cells had been pretreated with glucose. However, simultaneous presence of glucose was not required and the effect occurred even in the absence of extracellular Ca2+. Carbachol, the alpha 2-adrenergic agonist clonidine and the sulfonylurea tolbutamide lacked effects on [Ca2+]i. In addition to providing support for the concept that glucagon release is positively modulated by [Ca2+]i, the results demonstrate that cAMP raises [Ca2+]i in the alpha 2-cells by mobilizing calcium incorporated in response to glucose.     

Role of calcium signaling in epithelial bicarbonate secretion

Transepithelial bicarbonate secretion plays a key role in the maintenance of fluid and protein secretion from epithelial cells and the protection of the epithelial cell surface from various pathogens. Epithelial bicarbonate secretion is mainly under the control of cAMP and calcium signaling. While the physiological roles and molecular mechanisms of cAMP-induced bicarbonate secretion are relatively well defined, those induced by calcium signaling remain poorly understood in most epithelia. The present review summarizes the current status of knowledge on the role of calcium signaling in epithelial bicarbonate secretion. Specifically, this review introduces how cytosolic calcium signaling can increase bicarbonate secretion by regulating membrane transport proteins and how it synergizes with cAMP-induced mechanisms in epithelial cells. In addition, tissue-specific variations in the pancreas, salivary glands, intestines, bile ducts, and airways are discussed. We hope that the present report will stimulate further research into this important topic. These studies will provide the basis for future medicines for a wide spectrum of epithelial disorders including cystic fibrosis, Sjögren's syndrome, and chronic pancreatitis.     

Effect of intraduodenal sodium bicarbonate in rat and rabbit exocrine pancreatic secretion.

The effect of intraduodenal sodium bicarbonate, 0.1 M, on exocrine pancreatic secretion and the release of two peptides, secretin and VIP, was studied in anesthetized rats and rabbits, two species largely used in the gastroenterology laboratories. In the rabbit, intraduodenal sodium bicarbonate perfusion had no effect either on exocrine pancreatic secretion or on portal plasma levels of secretin and VIP. By contrast, in the rat, intraduodenal sodium bicarbonate perfusion significantly increased hydroelectrolyte exocrine pancreatic secretion and portal plasma secretin levels. A clear interspecific difference reflecting the different gastrointestinal physiology of both species is observed.     

Pancreatic stone protein, a phosphoprotein which inhibits calcium carbonate precipitation from human pancreatic juice

A soluble protein isolated from human pancreatic stones, and present in pancreatic secretion, strongly inhibits precipitation from supersaturated calcium carbonate solutions. Therefore, we suggest that this new secretory protein may act as an inhibitor of spontaneous calcium carbonate precipitation from supersaturated pancreatic juice.     

Characterization in rat pancreatic juice of a protein homologous to the human pancreatic stone protein

1. The pancreatic stone protein (PSP, Mr 15,000) which has been discovered in human calculi derives from the native glycosylated forms of the protein (Mrs 17,500-22,000) which are present in human pancreatic juice through tryptic cleavage of the Arg 11-Ile 12 bond. 2. In the present study, a homologous native form of the protein (Mr 17,000) was purified from rat pancreatic juice. 3. Its N-terminal amino acid sequence was found to display a high degree of homology with that of the human native protein forms, apart from the fact that it was not glycosylated. 4. In rat as in human, tryptic cleavage of the Arg 11-Ile 12 bond transforms a soluble protein into one which is practically insoluble at neutral pH.     

Cyclic nucleotides and neuromuscular transmission.

A review of the research on cyclic nucleotides and neuromuscular transmission suggests that cAMP is involved in the release of transmitter from motor nerve endings. Lipid-soluble derivations of cAMP cause depolarization of unstimulated nerve endings and prolong the after potentials of stimulated nerve endings. They also increase the frequency of miniature end plate potentials and increase the quantal content of stimulus evoked end plate potentials. Similar effects are produced by compounds that activate adenylate cyclase or inhibit phosphodiesterase. The responses to the derivatives of cAMP and activators of cyclase are enhanced by inhibitors of phosphodiesterase and prevented by compounds that block the flux of calcium into nerve endings. There is no evidence that suggests that cyclic nucleotides are involved in the postjunctional response to transmitter. Thus, it seems likely that cAMP is involved in the regulation of calcium in motor nerve endings and the exocytosis of transmitter. Additional study should expand our knowledge of neuromuscular transmission and contribute to an understanding of the functions of cyclic nucleotides in other synapses.     

The ghrelin pentapeptide inhibits the secretion of pancreatic juice in rats.

Ghrelin, a 28 amino acids polypeptide was recognized as an endogenous ligand for the growth hormone secretagogue receptor. It turned out that the entire sequence of ghrelin is not necessary for performing the above-mentioned functions. It was suggested that 5 residues (Gly-Ser-Ser(n-octanoyl)-Phe, pentaghrelin) constituted functionally active part of the full-length polypeptide. Ghrelin-28 was found to inhibit pancreatic enzyme output in rats, though the effect of pentaghrelin was not studied so far. The study aimed to determine the involvement of pentaghrelin in pancreatic juice secretion in anaesthetized rats. Male Wistar rats (220 +/- 20 g body weight, b. wt.) were anesthetized, the external jugular vein and common biliary-pancreatic duct were cannulated. Pentaghrelin boluses (i.v., 1.2, 12, and 50 nmol kg(-1) b. wt.) were injected every 30 min with or without CCK-8 infusion, duodenal mucosal CCK(1) receptor blockade with tarazepide, vagotomy and capsaicin pretreatment. Pentaghrelin boluses reduced the volume of pancreatic-biliary juice, protein and trypsin outputs both under basal and CCK-8-stimulated conditions in a dose-dependent manner. However, exogenous pentaghrelin failed to affect the pancreatic secretion in rats subjected to vagotomy, capsaicin deactivation of afferents or pretreatment with Tarazepide. In conclusion, pentaghrelin may control exocrine pancreas secretion by affecting duodenal neurohormonal mechanism(s) involving CCK and vagal nerves in rats.     

Cyclic nucleotides in spinal cells.

The most striking effects of intracellular injections of adenosine 3'5'-cyclic monophosphate (cAMP) into spinal mononeurons in cats are a speeding-up of the action potential, both its rising and falling phase, and a potentiation of the after-hyperpolarization; the latter porbably indicates a marked enhancement of Ca2+ influx. In this respect, cAMP and guanosine 3'5'-cyclic monophosphate (cGMP) have similar actions, though cAMP appears to be more potent. It is suggested that through this mechanism, cyclic nucleotides may play an important role in synaptic facilitation. Changes in resting membrane potential and resistance are less conspicuous or predictable. By contrast, both agents, when injected into unresponsive cells, presumed to be neuroglia, regularly cause a drop in membrane resistance; this is associated with hyperpolarization and therefore likely to reflect an increase in membrane K+ conductance.     

Islet-activating protein. Enhanced insulin secretion and cyclic AMP accumulation in pancreatic islets due to activation of native calcium ionophores.

The mechanism whereby "islet-activating protein" (IAP) purified from the culture medium of Bordetella pertussis potentiates insulin secretion was studied by experiments in vitro with islets of rats once injected with IAP (0.5 micrograms/100 g body weight, 3 days before killing) or with islets that had been exposed to IAP (0.1 to 100 ng/ml) for 24 h. The IAP treatment markedly enhanced insulin secretory responses and cAMP accumulation in islets, facilitated the efflux of 45Ca through the cell membrane, and abolished the alpha-adrenergic action of epinephrine (and somatostatin) to inhibit glucose-induced insulin release, cAMP accumulation, and 45Ca uptake. These effects of the IAP treatment were reduced when islets were incubated in a low calcium medium. Based on these results, it was concluded that IAP interacts directly but slowly with the islet B cell in such a manner as to render more calcium available to the stimulus-secretion coupling mechanism as a result of sustained activation of native calcium ionophores on the cell membrane.     

Cyclic GMP does not inhibit protein kinase C-mediated enzyme secretion in rat pancreatic acini

In pancreatic acini, cGMP can be increased by secretagogues such as cholecystokinin (CCK), cholinergic agents, and bombesin, whose actions on enzyme secretion are believed to be mediated by protein kinase C. However, the role of cGMP in acinar cell function has been unclear. A recent paper by Rogers et al. (Rogers, J., Hughes, R.G., and Matthews, E. K. (1988) J. Biol. Chem. 263, 3713-3719) reported that two analogues of cGMP, N2,O2-dibutyl guanosine 3':5'-monophosphate (Bt2cGMP) and 8-bromoguanosine 3':5'-monophosphate (8Br-cGMP), at concentrations in the nanomolar range, inhibited the stimulation of amylase secretion caused by CCK-8, bethanechol, bombesin, and 12-O-tetradecanoylphorbol-13-acetate (TPA). Rogers et al. also reported that sodium nitroprusside inhibited the stimulation of enzyme secretion caused by CCK-8 or TPA. These authors concluded that cGMP inhibits protein kinase C-mediated secretion in pancreatic acini. In the present study we attempted to confirm the findings of Rogers et al., We found, however, that Bt2cGMP inhibited CCK-8-stimulated amylase release only at concentrations of the nucleotide above 10 microM. Moreover, there was a close correlation between the ability of Bt2cGMP to inhibit CCK-8-stimulated amylase release and its ability to inhibit binding of 125I-CCK-8. Bt2cGMP, at concentrations as high as 3 mM, did not alter the stimulation of amylase release caused by carbachol, bombesin, TPA, or A23187. 8Br-cGMP, at concentrations up to 1 mM, did not inhibit the stimulation of amylase release caused by CCK-8 or TPA. At concentrations above 0.1 mM, 8Br-cGMP augmented the stimulation of amylase release caused by CCK-8, carbachol, bombesin, or TPA. Sodium nitroprusside, at a concentration that causes a 60-fold increase in cGMP, did not inhibit the stimulation of amylase release caused by CCK-8, carbachol, bombesin, or TPA. Our results do not confirm the findings of Rogers et al. and indicate that cGMP does not inhibit protein kinase C-mediated secretion in pancreatic acini.