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)

The role of pituitary adenylate cyclase-activating polypeptide (PACAP) in the regulation of exocrine and endocrine pancreas was investigated in conscious sheep. Intravenous infusions of PACAP-27 and PACAP-38 (1, 3, and 10 pmol/kg/min) for 10 min during phase II of the duodenal migrating myoelectric complex accelerated pancreatic protein and amylase outputs dose-dependently. The responses in enzyme secretion to both PACAPs at the highest doses were inhibited significantly by atropine infusion (14.4 nmol/kg/min). Vasoactive intestinal polypeptide (VIP) at 3 pmol/kg/min significantly accelerated protein but not amylase outputs, although the response to the highest dose was not significantly influenced by atropine. PACAP-27 and VIP increased pancreatic juice flow and bicarbonate output dose-dependently; however, the responses to the highest dose were not altered significantly by atropine. On the other hand, intravenous injection of PACAP-38 (100 pmol/kg) did not influence basal plasma concentration of insulin, glucagon, and glucose. Moreover, PACAP-38 (1-100 pmol/kg) altered neither pancreatic endocrine response to intravenous infusion of glucose (20 mumol/kg/min) not that to n-butyric acid (33 mumol/kg/min). These results suggest that PACAP contributes to the regulation of exocrine secretion of the ovine pancreas but not to endocrine secretion. PACAP appears to accelerate pancreatic enzyme secretion mostly via the cholinergic nerves.
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PMID:Effect of pituitary adenylate cyclase-activating polypeptide on exocrine and endocrine secretion in the ovine pancreas. 937 56

1. We examined whether pituitary adenylate cyclase-activating polypeptide with 38 or 27 residues (PACAP-38 or PACAP-27) serves as an intra-islet regulator of glucose-induced insulin secretion in rats. PACAP antiserum specific for PACAP-38 and PACAP-27 was used to neutralize the effect of endogenous PACAP in islets. PACAP release from islets was bioassayed using the response of cytosolic Ca2+ concentration ([Ca2+]i) in single beta-cells, monitored by dual-wavelength fura-2 microfluorometry. Expression of PACAP mRNA was studied by reverse transcription-polymerase chain reaction (RT-PCR), while expression of PACAP was studied by metabolic labelling and immunoblotting. Localization of PACAP receptors was studied immunohistochemically. 2. High glucose-stimulated insulin release from isolated islets was attenuated by PACAP antiserum but not by non-immune sera. 3. The islet incubation medium with high glucose (Med) possessed a capacity, which was neutralized by PACAP antiserum, to increase [Ca2+]i in beta-cells. PACAP antiserum also neutralized the [Ca2+]i-increasing action of synthetic PACAP-38 and PACAP-27, but not that of vasoactive intestinal polypeptide (VIP) and glucagon. 4. Both Med and synthetic PACAP increased [Ca2+]i in beta-cells only in the presence of stimulatory, but not basal, glucose concentrations. In contrast, ATP, a substance that is known to be released from beta-cells, increased [Ca2+]i in beta-cells at both and stimulatory glucose concentrations. 5. Expression of PACAP mRNA and biosynthesis of PACAP-38 were detected in islets and a beta-cell line, MIN6. 6. Immunoreactivity for PACAP-selective type-I receptor was observed in islets. 7. [Ca2+]i measurements combined with immunocytochemistry with insulin antiserum revealed a substantial population of glucose-unresponsive beta-cells, many of which were recruited by PACAP-38 into [Ca2+]i responses. 8. These results indicate that PACAP-38 is a novel islet substance that is synthesized and released by islet cells and then, in an autocrine and/or paracrine manner, potentiates and arouses beta-cell responses to glucose, thereby amplifying glucose-induced insulin secretion in islets.
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PMID:Pituitary adenylate cyclase-activating polypeptide (PACAP) is an islet substance serving as an intra-islet amplifier of glucose-induced insulin secretion in rats. 942 75

Helodermin and exendin-4, two peptides isolated from the salivary gland of the Gila monster, Heloderma suspectum, are approximately 50% homologous to vasoactive intestinal peptide (VIP) and glucagon-like peptide-1 (GLP-1), respectively, and interact with the mammalian receptors for VIP and GLP-1 with equal or higher affinity and efficacy. Immunohistochemical studies suggested the presence of helodermin-like peptides in mammals. To determine whether helodermin and exendin-4 are present in mammals and their evolutionary relationship to VIP and GLP-1, their cDNAs were first cloned from Gila monster salivary gland. Northern blots and reverse transcription-polymerase chain reaction of multiple Gila monster tissues identified approximately 500-base pair transcripts only from salivary gland. Both helodermin and exendin-4 full-length cDNAs were approximately 500 base pairs long, and they encoded precursor proteins containing the entire amino acid sequence of helodermin and exendin-4, as well as a 44- or 45-amino acid N-terminal extension peptide, respectively, having approximately 60% homology. The size and structural organization of these cDNAs indicated that they were closely related to one another but markedly different from known cDNAs for the VIP/GLP-1 peptide family previously identified in both lower and higher evolved species. Cloning of the Gila monster VIP/peptide histidine isoleucine, pituitary adenylate cyclase activating polypeptide, and glucagon/GLP-1 cDNAs and Southern blotting of Gila monster DNA demonstrate the coexistence of separate genes for these peptides and suggests, along with the restricted salivary gland expression, that helodermin and exendin-4 coevolved to serve a separate specialized function. Probing of a variety of rat and human tissues on Northern blots, human and rat Southern blots, and genomic and cDNA libraries with either helodermin- or exendin-4-specific cDNAs failed to identify evidence for mammalian homologues. These data indicate that helodermin and exendin-4 are not the precursors to VIP and GLP-1 and that they belong to a separate peptide family encoded by separate genes. Furthermore, the existence of as yet undiscovered mammalian homologues to helodermin and exendin-4 seems unlikely.
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PMID:Molecular cloning of the helodermin and exendin-4 cDNAs in the lizard. Relationship to vasoactive intestinal polypeptide/pituitary adenylate cyclase activating polypeptide and glucagon-like peptide 1 and evidence against the existence of mammalian homologues. 954 15

Although pituitary adenylate cyclase-activating polypeptide (PACAP) stimulates insulin secretion, its net influence on glucose homeostasis in vivo has not been established. We therefore examined the action of PACAP-27 and PACAP-38 on insulin secretion, insulin sensitivity, and glucose disposal as derived from the minimal model of glucose disappearance during an intravenous glucose tolerance test in anesthetized mice. PACAP-27 and PACAP-38 markedly and equipotently potentiated glucose-stimulated insulin secretion, with a half-maximal effect at 33 pmol/kg. After PACAP-27 or PACAP-38 (1.3 nmol/kg), the acute (1-5 min) insulin response was 3.8 +/- 0.4 nmol/l (PACAP-27) and 3.3 +/- 0.3 nmol/l (PACAP-38), respectively, vs. 1.4 +/- 0.1 nmol/l after glucose alone (P < 0.001), and the total area under the curve for insulin (AUCinsulin) was potentiated by 60% (P < 0.001). In contrast, PACAP-27 and PACAP-38 reduced the insulin sensitivity index (SI) [0.23 +/- 0.04 10(-4) min-1/(pmol/l) for PACAP-27 and 0.29 +/- 0.06 10(-4) min-1/(pmol/l) for PACAP-38 vs. 0.46 +/- 0.02 10(-4) min-1/(pmol/l) for controls (P < 0.01)]. Furthermore, PACAP-27 or PACAP-38 did not affect glucose elimination determined as glucose half-time or the glucose elimination rate after glucose injection or the area under the curve for glucose. Moreover, glucose effectiveness and the global disposition index (AUCinsulin times SI) were not affected by PACAP-27 or PACAP-38. Finally, when given together with glucose, PACAP-27 did not alter plasma glucagon or norepinephrine levels but significantly increased plasma epinephrine levels. We conclude that PACAP, besides its marked stimulation of insulin secretion, also inhibits insulin sensitivity in mice, the latter possibly explained by increased epinephrine. This complex action explains why the peptide does not enhance glucose disposal.
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PMID:PACAP stimulates insulin secretion but inhibits insulin sensitivity in mice. 961 41

Pituitary adenylate cyclase-activating polypeptide (PACAP) is a member of the glucagon/secretin peptide family, and its molecular structure is highly conserved in vertebrates. In this study, the functional role of PACAP in regulating GH release in the goldfish was investigated. Using immunohistochemical staining, nerve fibers with PACAP immunoreactivity were identified in the vicinity of goldfish somatotrophs, suggesting that this neuropeptide may influence GH release in the goldfish. The direct regulatory action of PACAP on GH secretion was demonstrated in vitro in perifused goldfish pituitary cells. PACAPs (0.01 nM to 1 microM) from different species, including ovine PACAP27, ovine PACAP38, frog PACAP38, zebra fish PACAP27, and zebra fish PACAP38, were all effective in stimulating GH release with ED50 values of 8.9 +/- 3.5, 3.3 +/- 1.6, 14.4 +/- 3.5, 15.4 +/- 4.1, and 1.4 +/- 0.2 nM, respectively. Similar concentrations of vasoactive intestinal polypeptide (VIP), a peptide related to PACAP, was not effective in this respect. In addition, the GH-releasing action of ovine PACAP38 (10 nM) was inhibited by the PACAP antagonist PACAP(6-38) (10 microM), but not by the VIP antagonist [4-Cl-D-Phe6,Leu17]VIP (10 microM). The pharmacology of these GH responses is consistent with the mammalian type I PACAP receptors, suggesting that a similar receptor subtype is present in the goldfish pituitary and mediates the GH-releasing action of PACAP. To establish the structural identity of this goldfish PACAP receptor, a complementary DNA (cDNA) clone sharing a high degree of sequence homology with mammalian type I PACAP receptors was isolated from a goldfish pituitary cDNA library. This cDNA was 5.2 kb in size with a 1.4-kb open reading frame and encoded a 465-amino acid protein with the typical structure of a 7-transmembrane domain-containing, G protein-coupled receptor. Functional expression of this cDNA in COS-7 cells revealed that this fish type I PACAP receptor could be activated by ovine PACAP27 and PACAP38 to increase cAMP synthesis with ED50 values of 2.4 +/- 0.8 and 4.2 +/- 1.2 nM, respectively. Other structurally related peptides, including VIP (100 nM), GH-releasing hormone (100 nM), glucagon (100 nM), secretin (100 nM), gastric inhibitory polypeptide (100 nM), and PTH (100 nM), were not effective in altering cAMP production. Using Northern blot and RT-PCR, messenger RNA transcripts of this PACAP receptor were identified in the brain, heart, and pituitary of the goldfish. These results, taken together, support the hypothesis that PACAP functions as a novel GH-releasing factor in the goldfish through activation of type I PACAP receptors.
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PMID:Hypophysiotropic action of pituitary adenylate cyclase-activating polypeptide (PACAP) in the goldfish: immunohistochemical demonstration of PACAP in the pituitary, PACAP stimulation of growth hormone release from pituitary cells, and molecular cloning of pituitary type I PACAP receptor. 968 97

Pituitary adenylate cyclase activating polypeptides (PACAP27 and PACAP38) are members of the VIP/secretin/glucagon family of peptides and have diverse neuroregulatory effects in sympathoadrenal cell development and function. PACAP peptides regulate rat superior cervical ganglion (SCG) neuron catecholamine and neuropeptide Y content and secretion, and promote sympathoneuroblast survival through activation of specific PACAP1 receptor isoforms. In examining the potential sources of PACAP regulating the SCG, PACAP expression was identified in rat preganglionic neurons in the intermediolateral cell column (IML) of the thoracic spinal cord which provide primary afferent projections to this sympathetic ganglion. Thoracic spinal cord segments (T1-4) contained approximately 17 pmol PACAP38 immunoreactivity/g tissue wet weight. Reverse-transcription polymerase chain reaction of cDNA from microdissected thoracic spinal cord using primers specific for rat neuronal proPACAP identified proPACAP mRNA expression in the IML; the results correlated with neurons labeled for proPACAP mRNA by in situ hybridization histochemistry and implicated PACAP biosynthesis in IML neurons. To demonstrate directly proPACAP transcript expression in preganglionic projection neurons to the SCG, the ganglion was decentralized and the sympathetic trunk immersed in fluorogold to identify sympathetic preganglionic neurons by retrograde labeling. Cryosections of spinal cord segments containing preganglionic neuron fluorogold labeled neurons were processed subsequently for in situ hybridization histochemical localization of proPACAP mRNA using a digoxigenin-labeled riboprobe; IML neurons were examined for fluorogold and digoxigenin/alkaline phosphatase product dual labeling. More than half of the preganglionic projection neurons to the SCG expressed PACAP mRNA, consistent with the postulate that PACAP peptides released from a subpopulation of thoracic IML preganglionic neurons may be physiological anterograde modulators of sympathetic SCG function.
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PMID:Pituitary adenylate cyclase activating polypeptide (PACAP) expression in sympathetic preganglionic projection neurons to the superior cervical ganglion. 973 69

Pituitary adenylate cyclase activating polypeptide (PACAP), a member of the secretin/glucagon/vasoactive intestinal polypeptide family of peptides, exists as 38-residue (PACAP 38) and truncated 27-residue (PACAP 27) forms, which play various roles in mammals. Recently, we isolated and characterized PACAPs with sequences very similar to that of tetrapod PACAP from the brains of two teleosts, the blue-spotted stargazer Gnathagnus elongatus and the stargazer Uranoscopus japonicus, and located PACAP-like immunoreactivities in the preoptic area, neurohypophysis and medulla oblongata of both species. In this study, PACAP-like immunoreactivity in the brain of an elasmobranch, the stingray Dasyatis akajei, was examined by sodium dodecyl sulfate (SDS)-polyacrylamide gel electrophoresis (PAGE) and Western blotting analysis and its distribution in the hypothalamo-pituitary region was studied immunohistochemically using the peroxidase-antiperoxidase method. The anti-PACAP 27 serum reacted with a single band of whole brain extract with a molecular weight of ca 5000. PACAP-like immunoreactive (LI) neuronal cell bodies were found in the nucleus medius hypothalami and PACAP-LI nerve fibers and terminals were seen from the nucleus to the caudal floor of the infundibular region. These results suggest that PACAP-like peptide may be present and function as a regulatory factor in the hypothalamo-pituitary region of the elasmobranch brain.
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PMID:The localization of pituitary adenylate cyclase-activating polypeptide (PACAP)-like immunoreactivity in the hypothalamo-pituitary region of an elasmobranch, stingray, Dasyatis akajei. 978 77

Activation of adenylyl cyclase by Gs-coupled receptors for insulinotropic hormones such as glucagon-like peptide-1 and pituitary adenylate cyclase-activating polypeptide plays a critical role in stimulating glucose-induced insulin secretion. Despite this important role of insulinotropic hormones in the regulation of insulin secretion, little is known about which of the multiple subtypes of adenylyl cyclase are expressed in beta-cells. Here we report the use of PCR primers designed to amplify all subtypes of adenylyl cyclase from cDNA prepared from human and rat islets and from insulin-secreting beta-cell lines. PCR products were cloned and sequenced to identify the subtypes of adenylyl cyclase amplified. Adenylyl cyclase types V and VI, known to couple to Galphas and Gbetagamma in the cAMP signaling pathway, account for all subtypes identified in human islets and INS-1 cells and the majority of subtypes in rat islets and HIT-T15 cells. These findings indicate that pancreatic beta-cells are particularly well suited to transmit signals via Gs-coupled receptors such as that for glucagon-like peptide-1.
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PMID:Expression of adenylyl cyclase subtypes in pancreatic beta-cells. 992 Aug 5

Pituitary adenylate cyclase-activating polypeptides (PACAP-27 and -38) are neuropeptides of the vasoactive intestinal polypeptide (VIP)/secretin/glucagon family. PACAP receptors are expressed in different brain regions including the cerebellum. We used primary culture of rat cerebellar granule neurons to study the effect of PACAP-38 on apoptosis induced by potassium deprivation. We demonstrated that serum and potassium withdrawal induces a mixture of apoptosis and necrosis rather than apoptosis only. We showed that PACAP-38 increased survival of cerebellar neurons in a dose-dependent manner by specifically decreasing the extent of apoptosis estimated by DNA fragmentation. PACAP-38 induced activation of the extracellular signal-regulated kinase (ERK)-type of MAP kinase through a cAMP-dependent pathway. PD98059, an inhibitor of MEK (MAP kinase kinase), completely abolished the anti-apoptotic effect of PACAP-38, suggesting that MAP kinase pathway activation is necessary for PACAP-38 effect.
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PMID:PACAP-38 protects cerebellar granule cells from apoptosis. 992 2

Pituitary adenylate cyclase-activating polypeptide (PACAP) has been originally isolated from the sheep hypothalamus on the basis of its ability to stimulate cAMP formation in anterior pituitary cells. Post-translational processing of the PACAP precursor generates two biologically active molecular forms, PACAP38 and PACAP27, and a novel peptide called PACAP-related peptide whose activity remains unknown. The primary structure of PACAP has been remarkably conserved during evolution, from protochordates to mammals, suggesting that the peptide exerts important activities throughout the vertebrate phylum. The sequence of PACAP27 exhibits substantial similarities with those of vasoactive intestinal polypeptide (VIP), glucagon and secretin. The gene encoding the PACAP precursor is widely expressed in the brain and in various peripheral organs, notably in endocrine glands, the gastro-intestinal and uro-genital tracts and the respiratory system. In vivo and in vitro studies have shown that PACAP exerts multiple activities as a hormone, neurohormone, neurotransmitter or trophic factor. For instance, PACAP triggers the release of insulin and glucagon, activates steroidogenesis in the adrenal gland and gonads, and stimulates the secretion of most hypophysial cells. PACAP exerts a potent relaxant activity on smooth muscle fibers in blood vessels, lung and gut. In the brain, PACAP stimulates the electrical activity of various populations of neurons and increases tyrosine hydroxylase gene expression. Recent studies have shown that PACAP exerts a trophic activity during ontogenesis, notably in the adrenal medulla and in the central nervous system. The biological effects of PACAP are mediated through three distinct receptor subtypes which exhibit differential affinities for PACAP and VIP. The PAC1 receptor, which shows high selectivity for PACAP, is coupled to several transduction systems. In contrast, VPAC1 and VPAC2, which bind with the same affinity PACAP and VIP, are mainly coupled to the adenylyl cyclase pathway. The bronchodilatator and vasorelaxant effects of PACAP, as well as the antiproliferative and neuroprotective actions of the peptide, make it a valuable target for new drug development.
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PMID:[Pituitary adenylate cyclase-activating polypeptide]. 994 91


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