Synergistic Effect of Glucagon-Like Peptide 2 (GLP-2) and of Key Growth Factors on the Proliferation of Cultured Rat Astrocytes. Evidence for Reciprocal Upregulation of the mRNAs for GLP-2 and IGF-I Receptors

Velázquez, Esther; Blázquez, Enrique; Ruiz-Albusac, Juan Miguel

doi:10.1007/s12035-009-8080-1

Cited by 13 publications

(13 citation statements)

References 44 publications

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“…Focusing on the intracellular signaling pathways involved, the present studies confirm the signaling events suggested in previous work done using intestinal myofibroblasts, CNSderived astrocytes, and hippocampal cell models (15,31,37). In these systems, increased cAMP was not a constitutive element in the GLP-2 response (15, 31, 37), which was confirmed in the present study.…”

Section: Discussionsupporting

confidence: 91%

“…Similar demonstrations of GLP-2 activation and regulation of neuronal phenotype have been shown in vivo in the ENS and in cultures of embryonic hippocampal neurons (31,33). However, a similar GLP-2-linked Akt-activated pathway was demonstrated in cultured astrocytes from the CNS (37,38). In the present study, enteric glial cells were also shown to specifically express the GLP-2 receptor, whereas the other main constituents of the cell preparation, smooth muscle cells and the fibroblasts, did not.…”

Section: Discussionsupporting

confidence: 72%

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Glucagon-like peptide 2 induces vasoactive intestinal polypeptide expression in enteric neurons via phophatidylinositol 3-kinase-γ signaling

Heuvel¹,

Wallace²,

Sharkey

et al. 2012

American Journal of Physiology-Endocrinology and Metabolism

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de Heuvel E, Wallace L, Sharkey KA, Sigalet DL. Glucagon-like peptide 2 induces vasoactive intestinal polypeptide expression in enteric neurons via phophatidylinositol 3-kinase-␥ signaling. Am J Physiol Endocrinol Metab 303: E994 -E1005, 2012. First published August 14, 2012; doi:10.1152/ajpendo.00291.2012.-Glucagon-like peptide 2 (GLP-2) is an enteroendocrine hormone trophic for intestinal mucosa; it has been shown to increase enteric neuronal expression of vasoactive intestinal polypeptide (VIP) in vivo. We hypothesized that GLP-2 would regulate VIP expression in enteric neurons via a phosphatidylinositol-3 kinase-␥ (PI3K␥) pathway. The mechanism of action of GLP-2 was investigated using primary cultures derived from the submucosal plexus (SMP) of the rat and mouse colon. GLP-2 (10 Ϫ8 M) stimulation for 24 h increased the proportion of enteric neurons expressing VIP (GLP-2: 40 Ϯ 6% vs. control: 22 Ϯ 5%). GLP-2 receptor expression was identified by immunohistochemistry on neurons (HuC/Dϩ) and glial cells (GFAPϩ) but not on smooth muscle or fibroblasts in culture. Over 1-4 h, GLP-2 stimulation of SMP increased phosphorylated Akt/Akt ratios 6.1-fold, phosphorylated ERK/ERK 2.5-fold, and p70S6K 2.2-fold but did not affect intracellular cAMP. PI3K␥ gene deletion or pharmacological blockade of PI3K␥, mammalian target of rapamycin (mTOR), and MEK/ ERK pathways blocked the increase in VIP expression by GLP-2. GLP-2 increased the expression of growth factors and their receptors in SMP cells in culture [IGF-1r (3.2-fold increase), EGFr (5-fold), and ErbB-2-4r (6-to 7-fold)] and ligands [IGF-I (1.5-fold), amphiregulin (2.5-fold), epiregulin (3.2-fold), EGF (7.5-fold), heparin-bound EGF (2.0-fold), ␤-cellulin (50-fold increase), and neuregulins 2-4 (300-fold increase) (by qRT-PCR)]. We conclude that GLP-2 acts on enteric neurons and glial cells in culture via a PI3K␥/Akt pathway, stimulating neuronal differentiation via mTOR and ERK pathways, and expression of receptors and ligands for the IGF-I and ErbB pathways.differentiation; extracellular signal-regulated kinase; ErbB; epidermal growth factor receptor; insulin-like growth factor I; neuregulin THE ENTERIC NERVOUS SYSTEM (ENS) is an important regulator of intestinal function and is understood primarily in terms of the control and integration of gastrointestinal motility, blood flow, and secretion (10,11,20). The role of the ENS in regulating other aspects of intestinal function, such as nutrient absorption and response to inflammation and injury, is becoming increasingly appreciated (18,23,32). The ENS is able to alter neuronal morphology, function, and the pattern of neurotransmitter expression in response to inflammation (17,33). Enteric neurons also undergo changes in neurochemical phenotype in pathophysiological states such as inflammation (22,29). The mechanisms that may regulate the phenotype and pattern of transmitter expression in the ENS in vivo are not well understood (5). In recent work, we have shown that glucagon-like peptide 2 (GLP-2), known as a trophic ...

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Section: Discussionsupporting

confidence: 91%

Section: Discussionsupporting

confidence: 72%

Glucagon-like peptide 2 induces vasoactive intestinal polypeptide expression in enteric neurons via phophatidylinositol 3-kinase-γ signaling

Heuvel¹,

Wallace²,

Sharkey

et al. 2012

American Journal of Physiology-Endocrinology and Metabolism

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“…The presence of GLP‐2R has been reported in the central nervous system and in the gastrointestinal tract 9,11,13–16 . In particular, high levels of GLP‐2R mRNA have been found in the jejunum, followed by duodenum, ileum, colon, and stomach 9,17 and, by immunocytochemical techniques, GLP‐2R expression was detected in subsets of human and mouse endocrine cells of the stomach, and small, 16 and large intestine 15 .…”

Section: Introductionmentioning

confidence: 99%

“…11,12 The presence of GLP-2R has been reported in the central nervous system and in the gastrointestinal tract. 9,11,[13][14][15][16] In particular, high levels of GLP-2R mRNA have been found in the jejunum, followed by duodenum, ileum, colon, and stomach 9,17 and, by immunocytochemical techniques, GLP-2R expression was detected in subsets of human and mouse endocrine cells of the stomach, and small, 16 and large intestine. 15 Guan and co-workers 18 detected GLP-2R-immunoreactivity (IR) in the enteroendocrine cells and myenteric neurons of porcine jejunum where it co-localized with serotonin in the former and with endothelial nitric oxide synthase (eNOS) and vasoactive intestinal polypeptide (VIP) in the latter.…”

Section: Introductionmentioning

confidence: 99%

GLP‐2 receptor expression in excitatory and inhibitory enteric neurons and its role in mouse duodenum contractility

Cinci¹,

Faussone–Pellegrini²,

Rotondo³

et al. 2011

Neurogastroenterology Motil

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Background Glucagon-like peptide 2 (GLP-2), a nutrient-responsive hormone, exerts various actions in the gastrointestinal tract that are mediated by a G-protein coupled receptor called GLP-2R. A little information is available on GLP-2R expression in enteric neurons and nothing on the interstitial cells of Cajal (ICC). Methods We investigated presence and distribution of the GLP-2R in the mouse duodenum by immunohistochemistry and the potential motor effects of GLP-2 on the spontaneous and neurally evoked mechanical activity. Key Results The GLP-2R was expressed by the myenteric and submucosal neurons. Labelling was also present in nerve varicosities within the circular muscular layer and at the deep muscular plexus (DMP). No immunoreactive nerve fiber was seen within the longitudinal muscle layer. The GLP-2R-positive neurons were either excitatory (SP-and choline-acetyltransferase-positive) or inhibitory (vasoactive intestinal polypeptide and nNOS-positive). The ICC, both at the myenteric plexus and at the DMP, never expressed GLP-2R but, especially those at the DMP, were surrounded by GLP-2R-positive nerve varicosities co-expressing either excitatory or inhibitory neurotransmitters. Quantitative analysis demonstrated a consistent prevalence of GLP-2R on the excitatory pathways. In agreement, the functional results showed that the administration of GLP-2 in vitro caused decrease of the spontaneous contractions mediated by nitric oxide release and reduction of the evoked cholinergic contractions. Conclusions & Inferences The present findings indicate that the GLP-2R is expressed by inhibitory and excitatory neurons, the GLP-2 inhibits the muscle contractility likely decreasing cholinergic neurotransmission and increasing nitric oxide production, and this effect is possibly mediated by the ICC-DMP recruitment.

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“…Another report showed that administration of low-dose GLP-1 combined with glucagon inhibited food intake-induced c-Fos expression in the area postrema and amygdala [14]. Moreover, the effect of glucagon-like peptide-2 (GLP-2) on c-Fos has been studied in primary rat astroglial cell cultures [15], and it has been demonstrated that GLP-2 has a role in hypertension regulation evaluated by c-Fos induction [16,17]. Ghrelin (GHR) and obestatin (OB) can also modulate c-Fos expression, GHR at neuronal level and so alter feeding patterns in rats and OB) in mouse embryonic fibroblast and adipose-like cells.…”

Section: Introductionmentioning

confidence: 99%

c-Fos induction by gut hormones and extracellular ATP in osteoblastic-like cell lines

Pacheco‐Pantoja

Dillon²,

Wilson³

et al. 2016

Purinergic Signalling

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It is widely accepted that the c-Fos gene has a role in proliferation and differentiation of bone cells. ATP-induced c-Fos activation is relevant to bone homeostasis, because nucleotides that are present in the environment of bone cells can contribute to autocrine/paracrine signalling. Gut hormones have previously been shown to have an effect on bone metabolism. In this study, we used the osteoblastic Saos-2 cell line transfected with a c-Fos-driven reporter stimulated with five gut hormones: glucose inhibitory peptide (GIP), glucagon-like peptide-1 (GLP-1), glucagon-like peptide-2 (GLP-2), ghrelin and obestatin, in the presence or absence of ATP. In addition, TE-85 cells were used to determine the time course of c-Fos transcript induction following stimulation with GLP-1, and GLP-2 with or without ATP, using reverse transcription qPCR. The significant results from the experiments are as follows: higher level of c-Fos induction in presence of GIP, obestatin (p = 0.019 and p = 0.011 respectively), and GIP combined with ATP (p < 0.001) using the luciferase assay; GLP-1 and GLP-2 combined with ATP (p = 0.034 and p = 0.002, respectively) and GLP-2 alone (p < 0.001) using qPCR. In conclusion, three of the gut peptides induced c-Fos, providing a potential mechanism underlying the actions of these hormones in bone which can be directed or enhanced by the presence of ATP.

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Synergistic Effect of Glucagon-Like Peptide 2 (GLP-2) and of Key Growth Factors on the Proliferation of Cultured Rat Astrocytes. Evidence for Reciprocal Upregulation of the mRNAs for GLP-2 and IGF-I Receptors

Cited by 13 publications

References 44 publications

Glucagon-like peptide 2 induces vasoactive intestinal polypeptide expression in enteric neurons via phophatidylinositol 3-kinase-γ signaling

Glucagon-like peptide 2 induces vasoactive intestinal polypeptide expression in enteric neurons via phophatidylinositol 3-kinase-γ signaling

GLP‐2 receptor expression in excitatory and inhibitory enteric neurons and its role in mouse duodenum contractility

c-Fos induction by gut hormones and extracellular ATP in osteoblastic-like cell lines

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