UNIPROT:P01275 - FACTA Search

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Query: UNIPROT:P01275 (glucagon)
26,492 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To evaluate the possible role of various hormones on fetal pancreas development, late gestational fetal rat pancreata (20 days) were cultured in a serum-free medium for 6 days in the presence of cholecystokinin-octapeptide (CCK-8), epidermal growth factor, triiodothyronine, or glucagon with or without dexamethasone. In the absence of any added hormone, the tissue amylase activity declined very rapidly. Epidermal growth factor alone (4.10(-7) M) could not preserve the amylase activity, whereas triiodothyronine (0.1 microM) and glucagon (4 micrograms/ml) had a deleterious effect that was prevented by the addition of DXM (3.10(-6) M). In the presence of CCK-8 (2.10(-11) M) 50 and 30% of the amylase activity was maintained on the 2nd and the 4th day of culture, respectively. The CCK-8 effect was dose dependent and was inhibited by asperlicin (10 microM). The combination of CCK-8 and dexamethasone maintained more than 80% of the amylase activity in the fetal pancreas explants through 4 days of culture. Fetal pancreas cultured in this optimal medium and treated with streptozotocin (10(-7) M) during the 1st day of culture showed a significantly lower tissue amylase activity on the 4th and 6th days than those not treated with streptozotocin. The streptozotocin effect was attenuated when insulin (0.1 U/ml) was added. These data suggest that, in addition to the well-known effect of glucocorticoid on enzyme activities in the fetal pancreas, two additional hormones, CCK and insulin, could play a role in the modulation of pancreatic amylase activity in the fetal rat.
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PMID:The effect of cholecystokinin-octapeptide, insulin, glucagon, triiodothyronine, and epidermal growth factor on amylase activity in fetal pancreas in vitro. 245 67

Exogenous galanin has been shown to suppress insulin secretion as elicited by a number of secretagogues such as glucose, arginine, tolbutamide, carbachol, and oral nutrients. To achieve further insight into the influence of galanin on the endocrine pancreas, we have investigated the effect of synthetic porcine galanin (a 200 ng bolus followed by constant infusion at a concentration of 16.8 ng/mL for 16 to 24 minutes) on unstimulated insulin, glucagon, and somatostatin release, as well as on the responses of these hormones to 1 nmol/L vasoactive intestinal peptide (VIP), 1 nmol/L gastric inhibitory peptide (GIP), 1 nmol/L 26 to 33 octapeptide form of cholecystokinin (8-CCK) or 10 nmol/L glucagon in the perfused rat pancreas. Galanin infusion reduced unstimulated insulin secretion by 60% without modifying glucagon and somatostatin output. Galanin also blocked insulin release elicited by VIP, GIP, and 8-CCK, it did not affect the glucagon responses to VIP and GIP, or the somatostatin responses to VIP, GIP, and 8-CCK. Finally, galanin inhibited the insulin output, but not the somatostatin release induced by glucagon. In conclusion, in the perfused rat pancreas, galanin appears to behave as a general inhibitor of insulin secretion. Since this neuropeptide does not modify glucagon or somatostatin release, a direct effect of galanin on the B-cell seems plausible.
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PMID:Effects of galanin on islet cell secretory responses to VIP, GIP, 8-CCK, and glucagon by the perfused rat pancreas. 245 42

The effects of the two intrapancreatic peptides galanin and pancreastatin on basal and stimulated insulin and glucagon secretion in the mouse were compared. It was found that at 2 min after intravenous injection of galanin or pancreastatin (4.0 nmol/kg), basal plasma glucagon and glucose levels were slightly elevated. Galanin was more potent than pancreastatin to elevate basal plasma glucagon levels: they increased from 60 +/- 15 to 145 +/- 19 pg/ml (p less than 0.01) after galanin compared to from 35 +/- 5 to 55 +/- 8 pg/ml (p less than 0.05) after pancreastatin. Plasma insulin levels were lowered by galanin (p less than 0.05), but not by pancreastatin. CCK-8 (6.3 nmol/kg) or terbutaline (3.6 mumol/kg) markedly increased the plasma insulin levels. Galanin (4.0 nmol/kg) completely abolished the insulin response to CCK-8 (p less than 0.001), but pancreastatin (4.0 nmol/kg) was without effect. Galanin inhibited the insulin response to terbutaline by approximately 60% (p less than 0.01), but pancreastatin inhibited the insulin response to terbutaline by approximately 35% only (p less than 0.05). CCK-8 and terbutaline did both elevate plasma glucagon levels by moderate potencies: neither pancreastatin nor galanin could affect these responses. Thus, in the mouse, galanin and pancreastatin both inhibit basal and stimulated insulin secretion, and stimulate basal glucagon secretion. Galanin is thereby more potent than pancreastatin. The study also showed that galanin potently inhibits insulin secretion stimulated by the octapeptide of cholecystokin and by the beta 2-adrenoceptor agonist terbutaline, and that pancreastatin inhibits terbutaline-induced insulin secretion.
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PMID:Galanin and pancreastatin inhibit stimulated insulin secretion in the mouse: comparison of effects. 246 35

The involvement of endogenous prostaglandins (PGs) in pancreatic endocrine and exocrine secretion was investigated, using the isolated and perfused dog pancreas. Spontaneous production of both PGE2 and 6-keto-PGF1 alpha was recorded in venous effluent. Prostaglandin production increased following stimulation with both 10 x 10(-11) and 20 x 10(-11) mol of CCK-8, but was not affected by a 5 x 10(-11) mol infusion. Insulin, glucagon, and amylase release was stimulated by 10 x 10(-11) mol of CCK-8. Indomethacin pretreatment with 10 mg/kg totally abolished endogenous PG production, but failed to suppress an insulin and glucagon response. On the other hand, an amylase response was accelerated by indomethacin pretreatment. Although low dose CCK-8 failed to stimulate endogenous prostaglandin production, a brisk exocrine secretion was not suppressed by indomethacin pretreatment. From the above results, we conclude that endogenous PGs do not appear to play an important role in pancreatic endocrine and exocrine secretion, but might have a cytoprotective effect on the pancreatic acinar cells damaged by CCK-8.
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PMID:Involvement of endogenous prostaglandins in pancreatic endocrine and exocrine secretion in dog pancreas. 247

The hypothesis that pancreatic glucagon (PG) inhibits feeding by altering intrameal gastric emptying was tested in nondeprived rats at midday, conditions under which exogenous PG is thought to elicit satiety. Rats received intraperitoneal injections of PG (400 or 800 micrograms/kg), cholecystokinin (CCK, 0.5 or 1.0 micrograms/kg) or saline and were given bolus intragastric infusions of 10 ml evaporated milk through chronic gastric cannulae. PG did not affect volumes of stomach contents recovered 20 minutes postinjection. In contrast, CCK inhibited gastric emptying in a dose-related manner. When milk was offered to the same rats to drink, 400 micrograms/kg PG significantly reduced meal size. These findings suggest that PG's satiety effect is not caused by its effect on stomach emptying.
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PMID:Pancreatic glucagon does not alter intrameal gastric emptying of milk in the rat. 251 Feb 6

The aim of this study was to localize the high-affinity uptake of [3H]-GABA in Langerhans islets of rats aged 2.5, 7.5, and 75 days. On high-resolution autoradiography, cells presenting characteristic somatostatin granules were labeled, whereas others containing similar granules appeared nearly devoid of silver grains. Immunogold detection with antisomatostatin antibodies and high-resolution autoradiography suggested that uptake of GABA is indeed performed by somatostatin cells. To test the heterogeneity of uptake frequency in somatostatin cells, a second approach, coupling immunohistochemistry with anti-somatostatin, anti-PP, anti-glucagon, anti-glicentin, and anti-CCK antibodies, and low-resolution autoradiography, was applied on paraffin sections. It demonstrated that the uptake ability is not characteristic of all the somatostatin cells but of only a subpopulation of them. A few cells not immunoreactive to the anti-somatostatin antiserum also appeared to be able to take up GABA. Moreover, except for a rare few, the PP-glucagon-, glicentin-, and CCK-39-immunoreactive cells were not labeled by autoradiography.
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PMID:High-affinity GABA uptake in a subpopulation of somatostatin cells in rat pancreas. 256

Culturing sympathetic ganglion neurons in vitro may modify phenotypic expression of some neurotransmitters. For dorsal root ganglia (DRG), contradictory results have been reported; most studies have used immature material. We have therefore performed a detailed immunocytochemical analysis of the transmitter content of cultured adult rat DRG neurons. To demonstrate possible modifications of neurotransmitter phenotypes, we have compared the results obtained with the same techniques on neurons cultured for 3 days and on freshly dissociated DRG cells. Also, the transmitter profile of cultured neurons was compared with that known from in situ studies. Out of 22 antigens studied, 20 were detected in cultured DRG neurons. All of them were expressed in small and/or intermediate-sized cells. Large neurons only contained CGRP, VIP, NPY, beta-END, ENK, and GABA. The percentage of immunostained neurons varied for the various antisera: less than 10% of cultured neurons were positive for ENK, beta-LPH, beta-END, DYN, VASO, and OXY; 10-30% for SOM, CCK, CAT, and SP; and greater than 30% for NPY, CRF, GLU, NT, VIP, GABA, GRP, CGRP, 5-HT, and TRH. In the latter two groups of transmitters (except CGRP), the proportion of immunoreactive neurons was by far larger in cultured than in freshly dissociated DRG. The most pronounced (greater than 25%) increase in the proportion of positively stained neurons after culturing was observed for the GRP, CRF, TRH, and 5-HT antisera. Serotonin was the only transmitter identified in cultured but not in freshly dissociated cells. These data indicate, on one hand, that various antigens, for example, CAT, GABA, NT, TRH, NPY, beta-LPH, and beta-END, which up to now have not been described in DRG in situ, can be detected immunocytochemically a few hours after dissociation of adult rat DRG. On the other hand, several transmitters, for example, VIP, NPY, SP, GABA, GLU, NT, GRP, CRF, TRH, and 5-HT, are expressed in a significantly higher proportion of cells in cultured than in freshly dissociated preparations. This might reflect a change in the phenotypic expression of transmitters due to the new environment generated by the culture conditions, a hypothesis that can be tested by measuring specific mRNA levels. Moreover, considering the plasticity and multipotentiality of their transmitter phenotype, cultured adult DRG neurons might represent an interesting material for autografts into the injured central nervous system.
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PMID:Neurotransmitter phenotype plasticity in cultured dissociated adult rat dorsal root ganglia: an immunocytochemical study. 256 40

The morphology and function islets isolated from rat pancreases with short-term (16 days) exocrine atrophy was investigated. It was found that this type of atrophy induced changes in the shape and morphological structure of pancreatic islets. However, the function of isolate islets did not change, as investigated by the basal or glucose-stimulated secretion of insulin, glucagon and somatostatin, and by the CCK-stimulated secretion of insulin. We conclude that the rat pancreas brought to atrophy by a short-term ligation of the pancreatic duct can be considered as a rich source of functionally viable islets.
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PMID:Pancreatic islets obtained from pancreases with short-term exocrine atrophy disturbed morphology but normal in vitro response to various stimuli. 257 Jul 8

In order to compare effects of circulating CCK-8 and glucagon on food intake, rats were provided with a permanently implanted catheter in the right atrium. Another cannula was implanted into the hepatic-portal vein by a new technique. After a standard fasting period graded loads of CCK-8 and glucagon were infused via these catheters during refeeding. Intracardiac glucagon and CCK loads dose-dependently suppressed meal size. Intraportal infusion of glucagon caused similar suppression compared to intracardiac administration. This may indicate a minor role of the liver as a target for the suppression of feeding by glucagon. In contrast, intraportal infusion of CCK-8 did not reduce food intake. The results indicate that CCK-8 is removed or inactivated by the liver. It is suggested that CCK-8 acts locally on vagal nerve endings to exert its suppressive action on food intake.
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PMID:Hepatic-portal and cardiac infusion of CCK-8 and glucagon induce different effects on feeding. 260 89

Pancreastatin is a 49-amino acid straight chain molecule isolated from porcine pancreatic extracts. In the perfused rat pancreas, this peptide has been shown to inhibit unstimulated insulin release and the insulin responses to glucose, arginine, and tolbutamide. To further explore the influence of pancreastatin on islet cell secretion, the effect of synthetic porcine pancreastatin (a 2-micrograms priming dose, followed by constant infusion at a concentration of 15.7 nmol/L) was studied on the insulin, glucagon, and somatostatin responses to 1 nmol/L vasoactive intestinal peptide (VIP), 1 nmol/L gastric inhibitory peptide (GIP), and 1 nmol/L 26 to 33 octapeptide form of cholecystokinin (8-CCK). The effect of pancreastatin on the insulin and somatostatin secretion elicited by glucagon (20 nmol/L) was also examined. Pancreastatin infusion consistently reduced the insulin responses to VIP, GIP, and 8-CCK without modifying glucagon or somatostatin release. It also inhibited the insulin release but not the somatostatin output induced by glucagon. These observations broaden the spectrum of pancreastatin as an inhibitor of insulin release. The finding that pancreastatin does not alter glucagon or somatostatin secretion supports the concept that it influences the B cell directly, and not through an A cell or D cell paracrine effect.
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PMID:Pancreastatin inhibits insulin secretion as induced by glucagon, vasoactive intestinal peptide, gastric inhibitory peptide, and 8-cholecystokinin in the perfused rat pancreas. 266 67

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