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)

Glucagon-like peptide-2 (GLP-2) promotes the expansion of the intestinal epithelium through stimulation of the GLP-2 receptor, a recently identified member of the glucagon-secretin G protein-coupled receptor superfamily. Although activation of G protein-coupled receptors may lead to stimulation of cell growth, the mechanisms transducing the GLP-2 signal to mitogenic proliferation remain unknown. We now report studies of GLP-2R signaling in baby hamster kidney (BHK) cells expressing a transfected rat GLP-2 receptor (BHK-GLP-2R cells). GLP-2, but not glucagon or GLP-1, increased the levels of cAMP and activated both cAMP-response element- and AP-1-dependent transcriptional activity in a dose-dependent manner. The activation of AP-1-luciferase activity was protein kinase A (PKA) -dependent and markedly diminished in the presence of a dominant negative inhibitor of PKA. Although GLP-2 stimulated the expression of c-fos, c-jun, junB, and zif268, and transiently increased p70 S6 kinase in quiescent BHK-GLP-2R cells, GLP-2 also inhibited extracellular signal-regulated kinase 1/2 and reduced serum-stimulated Elk-1 activity. Furthermore, no rise in intracellular calcium was observed following GLP-2 exposure in BHK-GLP-2R cells. Although GLP-2 stimulated both cAMP accumulation and cell proliferation, 8-bromo-cyclic AMP alone did not promote cell proliferation. These findings suggest that the GLP-2R may be coupled to activation of mitogenic signaling in heterologous cell types independent of PKA via as yet unidentified downstream mediators of GLP-2 action in vivo.
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PMID:Identification of glucagon-like peptide-2 (GLP-2)-activated signaling pathways in baby hamster kidney fibroblasts expressing the rat GLP-2 receptor. 1052 25

Glucagon-like peptide-2 (GLP-2) is a 33 amino acid gastrointestinal hormone that regulates epithelial growth in the intestine. Dipeptidylpeptidase IV cleaves GLP-2 at the position 2 alanine, resulting in the inactivation of peptide activity. To understand the structural basis for GLP-2 action, we studied receptor binding and activation for 56 GLP-2 analogues with either position 2 substitutions or alanine replacements along the length of the peptide. The majority of position 2 substitutions exhibited normal to enhanced GLP-2 receptor (GLP-2R) binding; in contrast, position 2 substitutions were less well tolerated in studies of receptor activation as only Gly, Ile, Pro, alpha-aminobutyric acid, D-Ala, or nor-Val substitutions exhibited enhanced GLP-2R activation. In contrast, alanine replacement at positions 5,6,17, 20, 22, 23, 25, 26, 30, and 31 led to diminished GLP-2R binding. Position 2 substitutions containing Asp, Leu, Lys, Met, Phe, Trp, and Tyr, and Ala substitutions at positions 12 and 21 exhibited normal to enhanced GLP-2R binding but greater than 75% reduction in receptor activation. D-Ala(2), Pro(2) and Gly(2), Ala(16) exhibited significantly lower EC(50)s for receptor activation than the parent peptide (p < 0.01-0.001). Circular dichroism analysis indicated that the enhanced activity of these GLP-2 analogues was independent of the alpha-helical content of the peptide. These results indicate that single amino acid substitutions within GLP-2 can confer structural changes to the ligand-receptor interface, allowing the identification of residues important for GLP-2R binding and receptor activation.
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PMID:Structural determinants for activity of glucagon-like peptide-2. 1091 1

Glucagon and the glucagon-like peptides regulate metabolic functions via signaling through a glucagon receptor subfamily of G protein-coupled receptors. Activation of glucagon-like peptide-2 receptor (GLP-2R) signaling maintains the integrity of the intestinal epithelial mucosa via regulation of crypt cell proliferation. Because GLP-2 decreases mortality and reduces intestinal apoptosis in rodents after experimental injury, we examined whether GLP-2R signaling directly modifies the cellular response to external injury. We show here that activation of GLP-2R signaling inhibits cycloheximide-induced apoptosis in baby hamster kidney fibroblasts expressing a transfected GLP-2 receptor. GLP-2 reduced DNA fragmentation and improved cell survival, in association with reduced activation of caspase-3 and decreased poly(ADP-ribose) polymerase cleavage and reduced caspase-8 and caspase-9-like activities. Both GLP-2 and forskolin reduced mitochondrial cytochrome c release and decreased the cycloheximide-induced cleavage of caspase-3 in the presence or absence of the PKA inhibitor H-89. Similarly, GLP-2 increased cell survival following cycloheximide in the presence of the kinase inhibitors PD98054 and LY294002. These findings provide evidence that signaling through G protein-coupled receptors of the glucagon superfamily is directly linked to regulation of apoptosis and suggest the existence of a cAMP-dependent protein kinase-, phosphatidylinositol 3-kinase-, and mitogen-activated protein kinase-independent pathway coupling GLP-2R signaling to caspase inhibition and cell survival.
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PMID:The glucagon-like peptide-2 receptor mediates direct inhibition of cellular apoptosis via a cAMP-dependent protein kinase-independent pathway. 1094 Mar 5

Glucagon-like peptide 2 (GLP-2) is a 33-amino acid (1-33) intestinotrophic peptide. In this study, the distribution and binding of i.v. injected radiolabeled GLP-2 (1-33) were investigated in rats using autoradiography in order to target possible binding sites. The major part of (125)I-GLP-2 (1-33) was distributed to kidneys, liver, and the gastrointestinal tract. In the small intestine, a high density of grains was localized in the epithelium with a predominance in the luminal part of the villus. The saturability of (125)I-GLP-2 (1-33) was investigated by administration of excess amounts of non-radioactive GLP-2 (1-33) or the primary metabolite of GLP-2 degradation, GLP-2 (3-33). In the small intestine, (125)I-GLP-2 was displaced both by non-radioactive GLP-2 (1-33) and (3-33), suggesting that the uptake of GLP-2 (1-33) in the small intestine is receptor-specific and that the metabolite GLP-2 (3-33) may interact with the GLP-2 receptor.
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PMID:Potential targets for glucagon-like peptide 2 (GLP-2) in the rat: distribution and binding of i.v. injected (125)I-GLP-2. 1106 98

Glucagon-like peptide-2 (GLP-2) is secreted by enteroendocrine cells in the small and large intestines and exerts intestinotropic effects in the gastrointestinal mucosal epithelium of the adult rodent. The actions of GLP-2 are mediated by the GLP-2 receptor, a new member of the G protein-coupled receptor superfamily. To ascertain whether the GLP-2/GLP-2 receptor axis is expressed and functional in the developing intestine, we have studied the synthesis of GLP-2 and the expression of the GLP-2 receptor (GLP-2R) in the fetal and neonatal rat gut. GLP-2 immunoreactivity (GLP-2-IR) was detected in the fetal rat intestine, and fetal rat intestinal cell cultures secreted correctly processed GLP-2(1-33) into the medium. High levels of GLP-2(1-33) were also detected in the circulation of 13-day-old neonatal rats (P < 0.001 vs. adult). Analysis of GLP-2 receptor expression by RT-PCR demonstrated GLP-2R messenger RNA transcripts in fetal intestine and in neonatal stomach, jejunum, ileum, and colon. The levels of GLP-2R messenger RNA transcripts were comparatively higher in the fetal and neonatal intestine (P < 0.05-001 vs. adult) and declined to adult levels by postnatal day 21. Subcutaneous administration of a degradation-resistant GLP-2 analog, h[Gly2]-GLP-2 once daily for 10 days increased stomach (0.009 +/- 0.0003 vs. 0.007 +/- 0.002 g/g body mass, h[Gly2]-GLP-2-treated vs. controls; P < 0.05) and small bowel weight (0.043 +/- 0.0037 vs. 0.031 +/- 0.0030 g/g body mass; P < 0.05). h[Gly2]-GLP-2 also increased both small (2.4 +/- 0.05 vs. 1.8 +/- 0.17 cm/g body mass; P < 0.05) and large bowel length (0.32 +/- 0.01 vs. 0.25 +/- 0.02 cm/g body mass, h[Gly2]-GLP-2-treated vs. saline-treated controls, respectively; P < 0.05) in neonatal rats. These findings demonstrate that both components of the GLP-2/GLP-2 receptor axis are expressed in the fetal and neonatal intestine. The ontogenic regulation and functional integrity of this axis raises the possibility that GLP-2 may play a role in the development and/or maturation of the developing rat intestine.
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PMID:Ontogeny of the glucagon-like peptide-2 receptor axis in the developing rat intestine. 1108 53

Glucagon-like peptides 1 and 2 (GLP-1 and GLP-2) are coencoded within a single mammalian proglucagon precursor, and are liberated in the intestine and brain. GLP-1 exerts well known actions on islet hormone secretion, gastric emptying, and food intake. Recent studies suggest GLP-1 plays a central role in the development and organization of islet cells. GLP-1 receptor signaling appears essential for beta cell signal transduction as exemplified by studies of GLP-1R-/- mice. GLP-2 promotes energy assimilation via trophic effects on the intestinal mucosa of the small and large bowel epithelium via a recently cloned GLP-2 receptor. The actions of GLP-2 are preserved in the setting of small and large bowel injury and inflammation. The biological actions of the glucagon-like peptides suggest they may have therapeutic efficacy in diabetes (GLP-1) or intestinal disorders (GLP-2).
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PMID:New developments in the biology of the glucagon-like peptides GLP-1 and GLP-2. 1119 27

Chemotherapeutic agents produce cytotoxicity via induction of apoptosis and cell cycle arrest. Rapidly proliferating cells in the bone marrow and intestinal crypts are highly susceptible to chemotherapy, and damage to these cellular compartments may preclude maximally effective chemotherapy administration. Glucagon-like peptide (GLP)-2 is an enteroendocrine-derived regulatory peptide that inhibits crypt cell apoptosis after administration of agents that damage the intestinal epithelium. We report here that a human degradation-resistant GLP-2 analogue, h[Gly2]-GLP-2 significantly improves survival, reduces bacteremia, attenuates epithelial injury, and inhibits crypt apoptosis in the murine gastrointestinal tract after administration of topoisomerase I inhibitor irinotecan hydrochloride or the antimetabolite 5-fluorouracil. h[Gly2]-GLP-2 significantly improved survival and reduced weight loss but did not impair chemotherapy effectiveness in tumor-bearing mice treated with cyclical irinotecan. Furthermore, h[Gly2]-GLP-2 reduced chemotherapy-induced apoptosis, decreased activation of caspase-8 and -3, and inhibited poly(ADP-ribose) polymerase cleavage in heterologous cells transfected with the GLP-2 receptor. These observations demonstrate that the antiapoptotic effects of GLP-2 on intestinal crypt cells may be useful for the attenuation of chemotherapy-induced intestinal mucositis.
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PMID:Glucagon-like peptide (GLP)-2 reduces chemotherapy-associated mortality and enhances cell survival in cells expressing a transfected GLP-2 receptor. 1121 69

We report here that glucagon-like peptide 2(GLP-2) and its receptor constitute a distinct projection system connecting the nucleus of the solitary tract with the dorsomedial hypothalamic nucleus (DMH). The DMH contains a dense plexus of GLP-2 immunoreactive fibres and is the only hypothalamic nucleus expressing GLP-2 receptor mRNA. Consistent with this, central application of GLP-2 activates the expression of neurones solely in the DMH. Furthermore, central administration of GLP-2 causes a dose-related, a pharmacologically and behaviourally specific inhibition of food intake in rats. Surprisingly, the alleged GLP-1 receptor antagonist, Exending (9-39), proved a functional antagonist of centrally applied GLP-2. These data implicate GLP-2 as an important neurotransmitter in the regulation of food intake and likely bodyweight. Our data therefore point to the DMH as a crossroad for endocrine and visceral information affecting feeding behaviour.
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PMID:[Glucagon-like peptide 2, a neurotransmitter with a newly discovered role in the regulation of food ingestion]. 1121 7

The mammalian proglucagon gene encodes three glucagon-like sequences, glucagon, glucagon-like peptide 1 (GLP-1) and glucagon-like peptide 2 (GLP-2). Each of these three functionally distinct proglucagon-derived peptides has a unique, but related, receptor. To better understand the origin of the unique physiological functions of each proglucagon-derived glucagon-like sequence we have cloned glucagon-like receptors from two species of frogs, Xenopus laevis and Rana pipiens. The cloned glucagon-like receptor sequences were found to be most closely related to glucagon receptors. To determine whether the evolutionary history of the receptors for proglucagon-derived peptides was the same as that inferred for the peptide hormones, we conducted a phylogenetic analysis using both parsimony and distance methods. We show that the evolutionary history of the receptors for glucagon-like sequences differ from the history of the glucagon-like sequences. The phylogeny of receptors for proglucagon-derived peptides is not monophyletic (i.e. they are not each other's closest relatives), as the receptor for the hormone glucose-dependent insulinotropic peptide (GIP) is more closely related to the glucagon receptor than either the GLP-1 or GLP-2 receptors. In contrast to the evolutionary origin of glucagon-like sequences, where glucagon is of most ancient origin, we found that the GLP-2 receptor has the most ancient origin. These observations suggest that the diversification of the glucagon-like sequences encoded by the proglucagon gene and of the receptors for these peptides occurred independently, and that either these hormones or their receptors have been recruited for new functions.
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PMID:Evolution of receptors for proglucagon-derived peptides: isolation of frog glucagon receptors. 1125 May 47

Glucagon-like peptide-2 (GLP-2) regulates energy homeostasis via effects on nutrient absorption and maintenance of gut mucosal epithelial integrity. The biological actions of GLP-2 in the central nervous system (CNS) remain poorly understood. We studied the sites of endogenous GLP-2 receptor (GLP-2R) expression, the localization of transgenic LacZ expression under the control of the mouse GLP-2R promoter, and the actions of GLP-2 in the murine CNS. GLP-2R expression was detected in multiple extrahypothalamic regions of the mouse and rat CNS, including cell groups in the cerebellum, medulla, amygdala, hippocampus, dentate gyrus, pons, cerebral cortex, and pituitary. A 1.5-kilobase fragment of the mouse GLP-2R promoter directed LacZ expression to the gastrointestinal tract and CNS regions in the mouse that exhibited endogenous GLP-2R expression, including the cerebellum, amygdala, hippocampus, and dentate gyrus. Intracerebroventricular injection of GLP-2 significantly inhibited food intake during dark-phase feeding in wild-type mice. Disruption of glucagon-like peptide-1 receptor (GLP-1R) signaling with the antagonist exendin-(9-39) in wild-type mice or genetically in GLP-1R(-)/- mice significantly potentiated the anorectic actions of GLP-2. These findings illustrate that CNS GLP-2R expression is not restricted to hypothalamic nuclei and demonstrate that the anorectic effects of GLP-2 are transient and modulated by the presence or absence of GLP-1R signaling in vivo.
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PMID:Glucagon-like peptide (GLP)-2 action in the murine central nervous system is enhanced by elimination of GLP-1 receptor signaling. 1126 90


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