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Query: UNIPROT:P01275 (
glucagon
)
26,492
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Somatostatin is a neuropeptide produced by neuroendocrine, inflammatory and immune cells in response to different stimuli. Somatostatin inhibits various cellular functions including secretions, motility and proliferation. Its action is mediated by five specific somatostatin receptors (sst1-sst5) which belong to the
G protein-coupled receptor
family. The five receptors bind the natural peptide with high affinity but only sst2, sst5 and sst3 bind the short synthetic analogues used to treat patients with neuroendocrine tumors. The five receptors are expressed in various normal and tumor cells, the expression of each receptor being receptor subtype and cell-type specific. In neuroendocrine tumors, sst2 is highly expressed whereas in advanced pancreatic adenocarcinoma as well as high-grade colorectal carcinomas, its expression is lost. Each receptor subtype is coupled to different signal transduction pathways through G protein-dependent and -independent mechanisms. The synthesis of selective agonists for each receptor and the recent development of genetic animal models with selective deletion of receptor subtype provide tools for establishing some of the biological roles of the receptors. sst1, 2 and 5 mediate inhibition of GH secretion whereas sst2 and sst5 mediate inhibition of
glucagon
secretion and insulin secretion, respectively.
...
PMID:Somatostatin receptors. 1094 Jun 84
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.
...
PMID:Ontogeny of the glucagon-like peptide-2 receptor axis in the developing rat intestine. 1108 53
Recent progress in research on pituitary adenylate-activating polypeptide (PACAP) with a special emphasis on the brain is reviewed. PACAP is a pleiotropic neuropeptide that belongs to the secretin/
glucagon
/vasoactive intestinal peptide family. PACAP functions as a hypothalamic hormone, neurotransmitter, neuromodulator, and neurotrophic factor. Studies on the gene encoding the PACAP precursor and the specific PACAP receptor (PAC1-R) and its subtypes have provided information on the control of gene expression for PACAP, and the relationship between the receptor subtypes and the signal transduction pathways. The PAC1-R is a
G protein-coupled receptor
with seven transmembrane domains and belongs to the VIP receptor family. At least eight subtypes of PAC1-R result from alternate splicing. Each subtype is coupled to specific signaling pathways, and its expression is tissue or cell specific. PACAP stimulates the release of arginine vasopressin and increases cytosolic Ca2+ ([Ca2+]i). PACAP serves as a neurotransmitter and/or neuromodulator and the activation of the PAC1-R stimulates a cAMP-protein kinase A signal transduction pathway which in turn evokes the [Ca2+]i signaling system. More importantly, PACAP is a neurotrophic factor that may play an important role during the development of the brain. The PAC1-R is actively expressed in different neuroepithelia from early developmental stages and expressed in various brain regions during prenatal and postnatal development. In the adult brain, PACAP appears to function as a neuroprotective factor that attenuates the neuronal damage resulting from various insults.
...
PMID:Pituitary adenylate cyclase-activating polypeptide (PACAP) and its receptors in the brain. 1119 92
Glucagon-like peptide 2
(
GLP-2
) is a 33 amino acid peptide-encoded carboxyterminal to the sequence of GLP-1 in the proglucagon gene. Both GLP-1 and
GLP-2
are secreted from gut endocrine cells and promote nutrient absorption through distinct mechanisms of action.
GLP-2
regulates gastric motility, gastric acid secretion, intestinal hexose transport, and increases the barrier function of the gut epithelium.
GLP-2
significantly enhances the surface area of the mucosal epithelium via stimulation of crypt cell proliferation and inhibition of apoptosis in the enterocyte and crypt compartments. The cytoprotective and reparative effects of
GLP-2
are evident in rodent models of experimental intestinal injury.
GLP-2
reduces mortality and decreases mucosal injury, cytokine expression, and bacterial septicemia in the setting of small and large bowel inflammation.
GLP-2
also enhances nutrient absorption and gut adaptation in rodents or humans with short bowel syndrome. The actions of
GLP-2
are transduced by the GLP-2 receptor, a
G protein-coupled receptor
expressed in gut endocrine cells of the stomach, small bowel, and colon. Activation of GLP-2 receptor signaling in heterologous cells promotes resistance to apoptotic injury in vitro. The cytoprotective, reparative, and energy-retentive properties of
GLP-2
suggests that
GLP-2
may potentially be useful for the treatment of human disorders characterized by injury and/or dysfunction of the intestinal mucosal epithelium.
...
PMID:Glucagon-like peptide 2. 1129 14
We previously provided evidence that
glucagon-like peptide 1
(
GLP-1
) induces pancreatic beta-cell growth nonadditively with glucose in a phosphatidylinositol (PI) 3-kinase- and protein kinase C zeta-dependent manner. However, the exact mechanism by which the GLP-1 receptor (GLP-1R), a member of the
G protein-coupled receptor
(
GPCR
) superfamily, activates the PI 3-kinase signaling pathway to promote beta-cell growth remains unknown. We hypothesized that the GLP-1R could activate PI 3-kinase and promote beta-cell proliferation through transactivation of the epidermal growth factor (EGF) receptor (EGFR), an event possibly linked to GPCRs via activation of c-Src and the production of putative endogenous EGF-like ligands. Both the c-Src inhibitor PP1 and the EGFR-specific inhibitor AG1478 blocked
GLP-1
-induced [(3)H]thymidine incorporation in INS(832/13) cells as well as in isolated rat islets, while only AG1478 inhibited the proliferative action of betacellulin (BTC), an EGFR agonist. Both compounds also suppressed
GLP-1
-induced PI 3-kinase activation. A time-dependent increase in tyrosine phosphorylation of the EGFR in response to
GLP-1
was observed in INS(832/13) cells. This transactivation of the EGFR was sensitive to both the pharmacological agents PP1 and AG1478. The action of
GLP-1
and BTC on INS cell proliferation was found to be not additive. Overexpression of a dominant-negative EGFR in INS cells with a retroviral expression vector curtailed
GLP-1
-induced beta-cell proliferation.
GLP-1
treatment of INS cells caused a decrease in cell surface-associated BTC, as shown by FACS analysis. Also, the metalloproteinase inhibitor GM6001 and an anti-BTC neutralizing antibody suppressed the
GLP-1
proliferative effect. Finally, coculturing the prostatic cancer cell line LNCaP that lacks
GLP-1
responsiveness with INS cells increased LNCaP cell proliferation in the presence of
GLP-1
, thus revealing that INS cells secrete a growth factor in response to
GLP-1
. GM6001 and an anti-BTC neutralizing antibody suppressed increased LNCaP cell proliferation in the presence of
GLP-1
in the coculture experiments. The results are consistent with a model in which
GLP-1
increases PI 3-kinase activity and enhances beta-cell proliferation via transactivation of the EGFR that would require the proteolytic processing of membrane-anchored BTC or other EGF-like ligands.
...
PMID:Glucagon-like peptide 1 induces pancreatic beta-cell proliferation via transactivation of the epidermal growth factor receptor. 1250 2
Peptide hormones are secreted from endocrine cells and neurons and exert their actions through activation of G protein-coupled receptors to regulate a diverse number of physiological systems including control of energy homeostasis, gastrointestinal motility, neuroendocrine circuits, and hormone secretion. The
glucagon
-like peptides, GLP-1 and
GLP-2
are prototype peptide hormones released from gut endocrine cells in response to nutrient ingestion that regulate not only energy absorption and disposal, but also cell proliferation and survival. GLP-1 expands islet mass by stimulating pancreatic beta-cell proliferation and induction of islet neogenesis. GLP-1 also promotes cell differentiation, from exocrine cells or immature islet progenitors, toward a more differentiated beta-cell phenotype.
GLP-2
stimulates cell proliferation in the gastrointestinal mucosa, leading to expansion of the normal mucosal epithelium, or attenuation of intestinal injury in experimental models of intestinal disease. Both GLP-1 and
GLP-2
exert antiapoptotic actions in vivo, resulting in preservation of beta-cell mass and gut epithelium, respectively. Furthermore, GLP-1 and
GLP-2
promote direct resistance to apoptosis in cells expressing GLP-1 or
GLP-2
receptors. Moreover, an increasing number of structurally related peptide hormones and neuropeptides exert cytoprotective effects through
G protein-coupled receptor
activation in diverse cell types. Hence, peptide hormones, as exemplified by GLP-1 and
GLP-2
, may prove to be useful adjunctive tools for enhancement of cell differentiation, tissue regeneration, and cytoprotection for the treatment of human disease.
...
PMID:Glucagon-like peptides: regulators of cell proliferation, differentiation, and apoptosis. 1255 44
Peptide hormones within the secretin-
glucagon
family are expressed in endocrine cells of the pancreas and gastrointestinal epithelium and in specialized neurons in the brain, and subserve multiple biological functions, including regulation of growth, nutrient intake, and transit within the gut, and digestion, energy absorption, and energy assimilation.
Glucagon
,
glucagon
-like peptide-1,
glucagon
-like peptide-2, glucose-dependent insulinotropic peptide, growth hormone-releasing hormone and secretin are structurally related peptides that exert their actions through unique members of a structurally related
G protein-coupled receptor
class 2 family. This review discusses advances in our understanding of how these peptides exert their biological activities, with a focus on the biological actions and structural features of the cognate receptors. The receptors have been named after their parent and only physiologically relevant ligand, in line with the recommendations of the International Union of Pharmacology Committee on Receptor Nomenclature and Drug Classification (NC-IUPHAR).
...
PMID:International Union of Pharmacology. XXXV. The glucagon receptor family. 1261 57
Glucagon
-like peptide-1 (GLP-1) acts via its
G protein-coupled receptor
(GLP-1R) to regulate blood glucose. Although the GLP-1R is widely expressed in peripheral tissues, including the heart, and exogenous GLP-1 administration increases heart rate and blood pressure in rodents, the physiological importance of GLP-1R action in the cardiovascular system remains unclear. We now show that 2-month-old mice with genetic deletion of the GLP-1R (GLP-1R(-/-)) exhibit reduced resting heart rate and elevated left ventricular (LV) end diastolic pressure compared with CD-1 wild-type controls. At the age of 5 months, echocardiography and histology demonstrate increased LV thickness in GLP-1R(-/-) mice. Although baseline hemodynamic parameters of GLP-1R(-/-) did not differ significantly from those of wild type, GLP-1R(-/-) mice displayed impaired LV contractility and diastolic function after insulin administration. The defective cardiovascular response to insulin was not attributable to a generalized defect in the stress response, because GLP-1R(-/-) mice responded appropriately to insulin with increased c-fos expression in the hypothalamus and increased circulating levels of
glucagon
and epinephrine. Furthermore, LV contractility after exogenous epinephrine infusion was also reduced in GLP-1R(-/-) mice. These findings provide new evidence implicating an essential role for GLP-1R in the control of murine cardiac structure and function in vivo.
...
PMID:Cardiac function in mice lacking the glucagon-like peptide-1 receptor. 1274 81
Glucagon
-like peptide-2 (GLP-2) is a potent intestinotrophic/satiety hormone that acts through a
G protein-coupled receptor
. To determine whether or not GLP-2 has any effect on cellular proliferation on neural cells, we examined the effects of this peptide on cultured astrocytes from rat cerebral cortex. The expression of the GLP-2 receptor gene in both cerebral cortex and astrocytes was determined by RT-PCR and Southern blotting. Also, cells responded to GLP-2, producing cAMP in a dose-dependent manner (EC50 = 0.86 nm). GLP-2 also stimulated the DNA synthesis rate in rat astrocytes. When proliferation was assessed by measuring [3H]thymidine incorporation into DNA or staining cells with crystal violet, GLP-2 produced a dose-dependent increase in both parameters. Similarly, when the numbers of cells in different phases of the cell cycle were measured by flow cytometry, a dose-dependent decrease in those in the G0-G1 phase and an increase in those in the S and G2-M phases were observed after 24 h incubation with GLP-2. By contrast, the number of hypodiploid cells was not affected during the experimental time. Also, GLP-2 produced a significant increase in the mRNAs of c-fos and c-jun when gene expression was determined by Northern blotting. These results suggest that GLP-2 directly stimulates the proliferation of rat astrocytes; this may open new insights in the physiological role of this novel neuropeptide.
...
PMID:Glucagon-like peptide-2 stimulates the proliferation of cultured rat astrocytes. 1284 33
Glucagon
-like peptide-2 (GLP-2) increases small intestinal growth and function in rodents and human subjects. GLP-2 exerts its effects through a seven-transmembrane domain,
G protein-coupled receptor
(GLP-2R), stimulating cAMP generation and activating protein kinase A signaling in heterologous cell lines transfected with the GLP-2R. As intestinal cell lines expressing the GLP-2R have not been identified, we developed methods for studying GLP-2R signaling in the rat small intestinal mucosa in vitro. Isolated rat intestinal mucosal cells expressed mRNA transcripts for the GLP-2R, as well as for chromogranin A and beta-tubulin III, markers for enteroendocrine and neural cells, respectively. cAMP production in response to [Gly2]GLP-2, a degradation-resistant analog of GLP-2, was maximal at 10-11 m (268 +/- 93% of control, P < 0.001), with reduced cAMP accumulation observed at higher doses. The cAMP response was diminished by pretreatment with 10-9 m GLP-2, and was abolished by pretreatment with 10-6 m GLP-2 (P < 0.05), indicating receptor desensitization. GLP-2 treatment of isolated mucosal cells increased 3H-thymidine incorporation (to 128 +/- 8% of controls, P < 0.05), and this was prevented by inhibition of the protein kinase A pathway with H89. In contrast, GLP-2 did not affect p44/p42 MAPK phosphorylation or the levels of cytosolic calcium in the mucosal cell preparation. These results provide the first evidence that activation of the endogenous rat mucosal GLP-2 receptor is linked to activation of a cAMP/protein kinase A-dependent, growth-promoting pathway in vitro.
...
PMID:Glucagon-like peptide-2 receptor activation in the rat intestinal mucosa. 1296 94
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