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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
) 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
Glucagon
-like peptide-2 (GLP-2) is a newly discovered growth factor that has been demonstrated to enhance intestinal growth and function in normal rodents and to prevent damage and facilitate intestinal repair in various animal models of intestinal insufficiency. A recent study has demonstrated that GLP-2 also acts as an intestinotropin in humans with short-bowel syndrome. The high degree of specificity of GLP-2 for induction of intestinal growth, without affecting growth of other peripheral tissues, is determined by the highly localized expression of the
GLP-2 receptor
in the intestinal epithelium. In this article, we review the regulation of GLP-2 in physiology, from synthesis to metabolism, with a particular emphasis on potential targets in this pathway for therapeutic manipulation of GLP-2 actions. We also discuss the various animal models of intestinal insufficiency that have been used to demonstrate the therapeutic potential of this intestinotropic hormone, including short bowel, intestinal atrophy, enteritis and colitis. The results of these studies indicate that GLP-2 is a promising therapeutic agent for the treatment of various forms of intestinal insufficiency in humans.
...
PMID:Therapeutic potential of the intestinotropic hormone, glucagon-like peptide-2. 1140 43
The proglucagon-derived peptide
glucagon-like peptide 2
(
GLP-2
), a product of a subset of gut epithelial cells, is pursued clinically for its ability to stimulate gut epithelial growth and repair. Here we show that although specific epithelial progenitors respond to
GLP-2
administration, the epithelium does not express the
GLP-2 receptor
. Rather, enteric neurons express the receptor, respond to
GLP-2
, and transmit a signal (which can be blocked by the voltage-gated sodium channel inhibitor tetrodotoxin) back to the epithelium. Thus the nervous system is a key component of a feedback loop regulating epithelial growth and repair.
...
PMID:Modulation of specific intestinal epithelial progenitors by enteric neurons. 1167 85
Glucagon
-like peptide-2 (GLP-2) is a potent intestinotropic factor in neonatal and adult animals. However, the GLP-2 responsiveness of the fetal intestine has not been established. To determine how stage of development affects the responsiveness to GLP-2, we examined
GLP-2 receptor
(
GLP-2R
) expression, gut morphology, and brush-border enzyme mRNA and activities in late-gestation fetal (n = 7) and parenterally fed neonatal (n = 7) piglets given GLP-2 (12.5 nmol/kg) twice daily for 6 days. The
GLP-2R
was expressed in the fetal and neonatal gastrointestinal tract. The biologically active GLP-2-(1-33) was undetectable (<5 pmol/l) in plasma of 98-day-gestation fetuses but increased significantly toward full term (115 days, 11 +/- 1 pmol/l) and in neonates fed by total parenteral nutrition (23 +/- 5 pmol/l). Exogenous GLP-2 had no effect on gut growth in fetuses but increased intestinal weight and villus height in neonates (P < 0.05). Crypt cell proliferation and the enzymes sucrase-isomaltase, lactase-phloridzin hydrolase, aminopeptidase A, and dipeptidyl peptidase IV were unchanged by GLP-2 in both groups. Aminopeptidase N mRNA and activity were increased in fetuses, while maltase mRNA and activity were increased in neonates. In conclusion, exogenous GLP-2 had different effects on small intestine growth and function in fetuses and neonates. This may be related to the normal developmental changes in intestine growth and function and to a maturation of the
GLP-2R
signaling pathways around the time of birth.
...
PMID:GLP-2 has differential effects on small intestine growth and function in fetal and neonatal pigs. 1170 85
The therapeutic potential of the intestinotrophic mediator
glucagon
-like peptide-2 (1-33) [
GLP-2
(1-33)] has increased interest in the pharmacokinetics of the peptide. This study was undertaken to investigate whether the primary degradation product
GLP-2
(3-33) interacts with the
GLP-2 receptor
. Functional (cAMP) and binding in vitro studies were carried out in cells expressing the transfected human
GLP-2 receptor
. Furthermore, a biologic response of
GLP-2
(3-33) was tested in vivo. Mice were allocated to groups treated for 10 days (twice daily) with: (1) 5 microg
GLP-2
(1-33), (2) 25 microg
GLP-2
(3-33), (3) 5 microg
GLP-2
(1-33)+100 microg
GLP-2
(3-33), or (4) 5 microg
GLP-2
(1-33)+500 microg
GLP-2
(3-33). The intestine was investigated for growth changes.
GLP-2
(3-33) bound to the
GLP-2 receptor
with a binding affinity of 7.5% of that of
GLP-2
(1-33). cAMP accumulation was stimulated with an efficacy of 15% and a potency more than two orders of magnitude lower than that of
GLP-2
(1-33). Increasing doses of
GLP-2
(3-33) (10(-7)-10(-5) M) caused a shift to the right in the dose-response curve of
GLP-2
(1-33). Treatment of mice with either
GLP-2
(1-33) or (3-33) induced significant growth responses in both the small and large intestines, but the response induced by
GLP-2
(3-33) was much smaller. Co-administration of 500 microg of
GLP-2
(3-33) and 5 microg
GLP-2
(1-33) resulted in a growth response that was smaller than that of 5 microg
GLP-2
(1-33) alone. Consistent with the observed in vivo activities, our functional studies and binding data indicate that
GLP-2
(3-33) acts as a partial agonist with potential competitive antagonistic properties on the
GLP-2 receptor
.
...
PMID:The truncated metabolite GLP-2 (3-33) interacts with the GLP-2 receptor as a partial agonist. 1173 43
The
glucagon
-like peptides (GLP-1 and
GLP-2
) are proglucagon-derived peptides cosecreted from gut endocrine cells in response to nutrient ingestion. GLP-1 acts as an incretin to lower blood glucose via stimulation of insulin secretion from islet beta cells. GLP-1 also exerts actions independent of insulin secretion, including inhibition of gastric emptying and acid secretion, reduction in food ingestion and
glucagon
secretion, and stimulation of beta-cell proliferation. Administration of GLP-1 lowers blood glucose and reduces food intake in human subjects with type 2 diabetes.
GLP-2
promotes nutrient absorption via expansion of the mucosal epithelium by stimulation of crypt cell proliferation and inhibition of apoptosis in the small intestine.
GLP-2
also reduces epithelial permeability, and decreases meal-stimulated gastric acid secretion and gastrointestinal motility. Administration of
GLP-2
in the setting of experimental intestinal injury is associated with reduced epithelial damage, decreased bacterial infection, and decreased mortality or gut injury in rodents with chemically induced enteritis, vascular-ischemia reperfusion injury, and dextran sulfate-induced colitis.
GLP-2
also attenuates chemotherapy-induced mucositis via inhibition of drug-induced apoptosis in the small and large bowel.
GLP-2
improves intestinal adaptation and nutrient absorption in rats after major small bowel resection, and in humans with short bowel syndrome. The actions of
GLP-2
are mediated by a distinct
GLP-2 receptor
expressed on subsets of enteric nerves and enteroendocrine cells in the stomach and small and large intestine. The beneficial actions of GLP-1 and
GLP-2
in preclinical and clinical studies of diabetes and intestinal disease, respectively, has fostered interest in the potential therapeutic use of these gut peptides. Nevertheless, the actions of the
glucagon
-like peptides are limited in duration by enzymatic inactivation via cleavage at the N-terminal penultimate alanine by dipeptidyl peptidase IV (DP IV). Hence, inhibitors of DP IV activity, or DP IV-resistant
glucagon
-like peptide analogues, may be alternative therapeutic approaches for treatment of human diseases.
...
PMID:Biological actions and therapeutic potential of the glucagon-like peptides. 1183 66
The pre-proglucagon derived peptides,
glucagon
-like peptide-1 (GLP-1) and
glucagon
-like peptide-2 (GLP-2) are both involved in a wide variety of peripheral functions, such as glucose homeostasis, gastric emptying, intestinal growth, insulin secretion as well as the regulation of food intake. Pre-proglucagon is also found in the brainstem in a small population of nerve cells in the nucleus of the solitary tract (NTS) that process the pre-propeptide as in the gut to yield GLP-1 and GLP-2. GLP-1 containing nerve fibres and the GLP-1 receptor are found predominantly in hypothalamic midline nuclei. GLP-1 given centrally to naive rats results in a marked induction of c-Fos protein in the supraoptic nucleus, paraventricular nucleus of the hypothalamus (PVN) and central nucleus of the amygdala, but only a moderate increase in the arcuate nucleus. The pattern of c-Fos activation is compatible with the appetite suppressing effects of GLP-1. This anorectic effect of GLP-1 appears to be mediated by the PVN, as direct injections of GLP-1 into this nucleus cause anorexia without concomitant taste aversion, suggesting a specific action upon neuronal circuits involved in the regulation of feeding. Recent experiments have also shown that GLP-1 is implicated in mediating signals from the gastrointestinal tract pertaining to discomfort and malaise. The distribution of the co-localised peptide, GLP-2, displays a perfect overlap with GLP-1 in the CNS with the highest concentration in the diffuse ventral part of the dorsomedial nucleus (DMHv). In contrast to the widely distributed GLP-1 receptor mRNA,
GLP-2 receptor
mRNA is exclusively expressed in the compact part of the DMH (DMHc). Interestingly, the DMHc is also the only nucleus responding to central administration of GLP-2 with a significant increase in the number of c-Fos positive cells. When injected into the lateral ventricle, GLP-2 has a marked inhibitory effect on feeding. The effect of GLP-2 on feeding is both behaviourally and pharmacologically specific. Future experiments will elucidate whether or not GLP-1 and GLP-2 are involved in the long-term or short-term regulation of feeding behaviour and hence have an impact on bodyweight.
...
PMID:Glucagon-like peptide containing pathways in the regulation of feeding behaviour. 1184 Feb 14
Glucagon-like peptide 2
(
GLP-2
) may mediate in part the rapid growth effects of luminal nutrients in the small intestine of newborns. The objectives of this study were to determine plasma
GLP-2
concentrations and small intestinal
GLP-2 receptor
(
GLP-2R
) mRNA abundance (measured by reverse transcription polymerase chain reaction) during pre- and postnatal development and the relationship between these variables and small intestinal growth in enterally and parenterally fed fetal and newborn pigs (premature and term-delivered, 92 and 100% gestation, respectively). Plasma
GLP-2
concentrations increased before birth, peaked in suckling 1-d-old pigs (87 +/- 14 pmol/L, P < 0.05), decreased with weaning-related anorexia (34 +/- 5 pmol/L, P < 0.05) and increased when normal food intake resumed (81 +/- 9 pmol/L, P < 0.05). Plasma
GLP-2
concentrations were increased 1 d after enteral infusion of colostrum in fetal pigs at 92% gestation compared with untreated controls (59 +/- 11 vs. 7 +/- 2 pmol/L, P < 0.05). In newborn pigs, plasma
GLP-2
was increased 2-6 d after the enteral administration of a milk diet, compared with the parenteral infusion of elemental nutrients, but the time course of the response was delayed in premature newborn pigs. Small intestinal
GLP-2R
mRNA abundance was highest at birth and decreased with enteral food intake in fetal, suckling and weaned pigs (P < 0.05). In contrast, enteral feeding increased (P < 0.05) relative small intestinal weight and/or villous heights in these pigs. We conclude that the introduction of enteral feeding transiently increases plasma
GLP-2
concentrations and decreases small intestinal
GLP-2R
mRNA levels during pig development.
GLP-2
may play a role in the growth of the small intestine around birth and weaning via a response to enteral nutrition.
...
PMID:Introduction of enteral food increases plasma GLP-2 and decreases GLP-2 receptor mRNA abundance during pig development. 1277 17
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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