Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

From structure-activity relationship studies of rat growth hormone-releasing factor (rGFR) on the vasoactive intestinal peptide (VIP) receptor in an in vitro preparation of exocrine pancreas, we predicted that [4Cl-D-Phe6, Leu17]VIP would be a competitive antagonist for the action of VIP. Micromolar concentrations of synthetic [4Cl-D-Phe6, Leu17]VIP competitively antagonized VIP-stimulated amylase release in the pancreatic preparation and VIP-stimulated short-circuit current changes in a colonic tumor cell line. In addition, [4Cl-D-Phe6, Leu17]VIP inhibited amylase release stimulated by rGRF, high concentrations of secretin (agents that act through the VIP receptor), and peptide contaminants in a preparation of natural glucagon. Finally, [4Cl-D-Phe6, Leu17]VIP did not inhibit the action of agonists for the secretin, GRF, or glucagon receptors.
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PMID:Vasoactive intestinal peptide receptor antagonist [4Cl-D-Phe6, Leu17] VIP. 242 87

Previous studies have shown that left ventricular (LV) hypertrophy in renal hypertensive rats (RHR) is associated with reduced responsiveness to beta-adrenergic stimulation (isoproterenol) but not to calcium or cardiac glycosides. To determine whether this impairment is restricted to beta-receptor agonists or extended to include other stimulants of the adenylate cyclase system, inotropic responses to glucagon and to vasoactive intestinal peptide (VIP) were determined in isolated paced hearts (Langendorff preparation) from RHR and strictly matched sham-operated controls. The response (delta peak LV +dP/dt) to both agonists was significantly reduced in RHR, whether expressed in absolute value or in percent of baseline. It averaged 59.3 +/- 19.3 (SE) mm Hg X s-1 in RHR at the highest dose of VIP (15 micrograms) and a perfusion pressure (PP) of 50 mm Hg as compared with 255 +/- 68.4 in controls (p less than 0.01). The responses to glucagon were determined at two levels of perfusion pressure--50 and 80 mm Hg--to determine the influence, if any, of possible alterations in myocardial perfusion on differences between the normal and hypertrophied hearts. At both PP levels the LV +dP/dt response was significantly lower in RHR--+ 374 +/- 103 vs. + 1,026 +/- 166 mm Hg X s-1 (p less than 0.005) or + 120 +/- 5 vs. + 143 +/- 7% of baseline value (p less than 0.02) for PP of 50 mm Hg; and 392 +/- 154 vs. + 1,732 +/- 251 mm Hg X s-1 (p less than 0.01) or + 112 +/- 4 vs. + 160 +/- 2% (p less than 0.001) for PP of 80 mm Hg.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inotropic responsiveness in hypertensive left ventricular hypertrophy: impaired inotropic response to glucagon and vasoactive intestinal peptide in renal hypertensive rats. 242 81

Membrane currents were recorded from voltage-clamped Xenopus laevis oocytes, surrounded by their enveloping follicular and epithelial cells. Porcine vasoactive intestinal peptide (VIP) generated a membrane current due to an increase in membrane conductance to K+. The VIP current was mimicked by the adenylate cyclase activator forskolin and was potentiated by phosphodiesterase inhibitors, suggesting that adenosine 3',5'-cyclic monophosphate (cyclic AMP) plays a role in mediating the response. Though resembling the follicle's responses to catecholamines and adenosine in ionic basis and apparent mechanism, the response to VIP was not blocked by catecholaminergic or purinergic antagonists, indicating the presence of a specific VIP receptor in the follicle. Among the VIP related peptides, PHM-27 generated similar but smaller K+ currents and porcine secretin and glucagon neither elicited a response nor blocked that to VIP. After treating follicles with collagenase to remove the epithelial and follicular cells the responses to VIP were either substantially reduced or abolished, suggesting that the VIP receptors and K+ channels are both located in the follicular cells.
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PMID:Membrane currents elicited by porcine vasoactive intestinal peptide (VIP) in follicle-enclosed Xenopus oocytes. 244 88

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

Vasoactive intestinal polypeptide (VIP) has been shown to stimulate melatonin synthesis in mammalian pineal; however, a regulatory role for VIP in the avian pineal has not been explored. Immunocytochemical and physiological response experiments were performed to investigate whether 1) immunoreactive VIP fibers innervated the avian pineal gland; 2) VIP had a specific effect on melatonin release that was mediated by cAMP stimulation; and 3) alpha 2-adrenergic signal transduction was associated with a reduction in cAMP levels. Immunocytochemical experiments demonstrated the presence of both tyrosine hydroxylase- and VIP-immunoreactive fibers in the avian pineal gland. Treatment of dispersed chick pineal cell cultures with VIP stimulated melatonin release (maximum 6-fold increase; EC50 = 1.8 nM) when administered during the 12-h light period of a 12-h light, 12-h dark cycle. Of the other four peptides tested [porcine VIP-(10-28), porcine peptide histidine isoleucine, porcine secretin, and human glucagon), only peptide histidine isoleucine stimulated melatonin release (EC50 = 30 nM). The effect of VIP was mediated by a time- and dose-dependent increase in cAMP accumulation (maximum 4-fold increase). The specific alpha 2-agonist UK-14,304 reduced cAMP accumulation (maximum 43% reduction) and inhibited melatonin release (EC50 = 19 nM) in the presence of 3 X 10(-8) M VIP. Norepinephrine-induced inhibition of nocturnal melatonin release was blocked by the elevation of cAMP achieved through the administration of forskolin (EC50 = 0.2 microM), isobutylmethylxanthine (EC50 = 112 microM), or 8-bromo-cAMP (EC50 = 166 microM). Collectively, these results demonstrate the presence and functional significance of VIP in the avian pineal gland, and the interaction of VIP and norepinephrine at the level of cAMP in the regulation of melatonin biosynthesis.
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PMID:Vasoactive intestinal polypeptide and alpha 2-adrenoceptor agonists regulate adenosine 3',5'-monophosphate accumulation and melatonin release in chick pineal cell cultures. 247 31

Octreotide is a long-acting cyclic octapeptide with pharmacologic actions mimicking those of the natural hormone somatostatin. It can suppress the secretion of serotonin, as well as the gastroenteropancreatic peptides gastrin, vasoactive intestinal peptide (VIP), insulin, glucagon, secretin, motilin, and pancreatic polypeptide. It also suppresses growth hormone and decreases splanchnic blood flow. Octreotide is completely and rapidly absorbed following subcutaneous injection and has an elimination half-life of 1.5 hours. Clinical trials reviewed here show octreotide useful in the treatment of diarrhea associated with VIP secreting tumors, as well as diarrhea and flushing associated with carcinoid syndrome, both conditions for which the drug is approved. Clinical trials involving the use of octreotide in the treatment of acromegaly are also reviewed. Adverse reactions to octreotide are mild to moderate and most commonly involve injection site pain and diarrhea. Drug interactions are apparently related to the drug's pharmacologic effects. Octreotide is given subcutaneously two to three times daily, with daily doses ranging from 50mcg to 1,500mcg per day. Further research appears necessary to clarify dosing issues.
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PMID:Debut of a somatostatin analog: octreotide in review. 255 39

This study describes functional characteristics of receptors for vasoactive intestinal peptide (VIP) on human Ewing's sarcoma WE-68 cells. These characteristics include 125I-VIP binding capacity, cellular cAMP generation, glycogen hydrolysis, and pharmacological specificity. Binding studies with 125I-VIP showed specific, saturable, binding sites for VIP in WE-68 cells. Scatchard analysis revealed the presence of a single class of high-affinity binding sites that exhibited a dissociation constant (Kd) of 90 pM and a maximal binding capacity (Bmax) of 24 fmol/mg of protein. VIP and VIP-related peptides competed for 125I-VIP binding in the following order of potency: human (h) VIP greater than human peptide with N-terminal histidine and C-terminal methionine (PHM) greater than chicken secretin much greater than porcine secretin. Glucagon and the C-terminal fragments VIP[10-28] and VIP[16-28] and the VIP analogue (D-Phe2)VIP did not inhibit 125I-VIP binding. Addition of hVIP to WE-68 cells provoked marked stimulation of cAMP accumulation, hVIP stimulated increases in cAMP content were rapid, concentration-dependent, and potentiated by 3-isobutyl-l-methylxanthine (IBMX). Half-maximal stimulation (EC50) occurred at 150 nM hVIP. The ability of hVIP and analogues to stimulate cAMP generation paralleled their potencies in displacing 125I-VIP binding. (D-Phe2)VIP, VIP[10-28], VIP[16-28], and (p-Cl-D-Phe6, Leu17)VIP, a putative VIP receptor antagonist, affected neither basal cAMP levels nor hVIP-induced cAMP accumulation. WE-68 cell responses to hVIP were desensitized by prior exposure to hVIP. Desensitization to hVIP did not modify the cAMP response to beta-adrenergic stimulation, and beta-adrenergic agonist desensitization did not modify responses to hVIP. hVIP also induced a time- and concentration-dependent hydrolysis of 3H-glycogen newly formed from 3H-glucose in WE-68 cultures. hVIP maximally decreased 3H-glycogen content by 36% with an EC50 value of about 8 nM. The order of potency of structurally related peptides of hVIP for stimulation of glycogenolysis correlated with their order of potency for inhibition of 125I-VIP binding. IBMX potentiated the glycogenolytic action of hVIP and PHM. The simultaneous presence of the calcium channel antagonist verapamil or the calcium ionophore A 23187 did not influence the glycogenolytic and cAMP stimulatory effects of hVIP. Collectively, these data indicate that Ewing's sarcoma (WE-68) cells are endowed with genuine VIP receptors which are coupled to the formation of cAMP that probably serves a second messenger role in stimulating glycogen hydrolysis in these cells in response to VIP.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Vasoactive intestinal peptide receptor regulation of cAMP accumulation and glycogen hydrolysis in the human Ewing's sarcoma cell line WE-68. 256 12

1. Vasoactive intestinal polypeptide (VIP) is present in high concentrations in the hypothalamus and appears to be involved in the modulation of growth hormone (GH) secretion. The effects of VIP on hypothalamic somatostatin (SMS) release are, however, controversial. 2. To further elucidate the mechanism of action of this peptide on GH secretion we studied the effects of VIP on SMS secretion from incubated rat hypothalamic fragments in vitro. 3. At 10(-6) M, VIP induced a significant increase in basal SMS release (P less than 0.01), whereas at 10(-10) M it had an inhibitory effect. 4. We suggest that the increase in GH after in vivo administration of VIP may be modulated, at least in part, by a direct effect of this peptide on SMS neurons, while the stimulatory effect of high doses of VIP on SMS release may represent a pharmacological interaction of this peptide with growth hormone releasing hormone, peptide histidine isoleucine, or glucagon receptors.
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PMID:Dose-dependent effects of vasoactive intestinal polypeptide on somatostatin release from hypothalamic fragments in vitro. 257 24

The chemistry, pharmacology, pharmacokinetics, clinical uses, adverse effects and drug interactions, dosage, availability and cost, and indications for use of octreotide, a new synthetic analogue of the peptide hormone somatostatin (SS), are reviewed. Like SS, octreotide suppresses secretion of pituitary growth hormone (GH) and thyrotropin and decreases release of a variety of pancreatic islet cell hormones including insulin, glucagon, and vasoactive intestinal peptide (VIP). Octreotide also reduces splanchnic blood flow, gastric acid secretion, GI motility, and pancreatic exocrine function and alters the absorption of water, electrolytes, and nutrients from the GI tract. The elimination half-life of i.v. octreotide is 72-98 minutes, compared with 2-3 minutes for i.v. SS. Usual administration of octreotide is by the i.v. or s.c. route. Octreotide has been studied in the treatment of hormone-secreting pituitary tumors and pancreatic islet cell tumors. Octreotide therapy lowers GH secretion and improves clinical symptoms in patients with acromegaly and may suppress clinical symptoms to a greater degree than bromocriptine. Patients with carcinoid syndrome and VIP-secreting tumors (vipomas) have had substantial improvement in clinical symptoms with administration of octreotide. This agent does not appear to be effective in the treatment of nonvariceal upper GI bleeding and acute pancreatitis; its relative usefulness in the treatment of variceal bleeding is not established. Adverse effects associated with octreotide therapy generally have been mild, including pain or burning at the injection site, abdominal pain, and diarrhea. Octreotide has been shown to interfere with absorption of oral cyclosporine. Standard initial therapy is octreotide acetate 50-100 micrograms s.c. every 8-12 hours, with titration based on clinical and biochemical effects. Up to 3000 micrograms/day of octreotide acetate has been administered to patients with acromegaly without serious adverse effect. Octreotide is marketed under the brand name Sandostatin and is available in 1-mL ampuls containing 50, 100, and 500 micrograms of octreotide acetate. Because the conditions for which octreotide appears to be most effective are uncommon, the drug should be considered for addition to the formulary in tertiary-care institutions only; addition of octreotide to the formulary of a community hospital is probably unnecessary. The synthetic analogue octreotide is longer acting and more specific in pharmacologic action than SS.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Octreotide, a new somatostatin analogue. 265 11

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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