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)

Apoptotic cell death is thought to play a crucial role in the manifestation of insulin- and non-insulin dependent diabetes mellitus. Therefore, apoptosis and apoptotic markers were studied in the rat endocrine pancreas to get insight into the possible life cycle of Langerhans islets. The islets were investigated at 13 time points between day E19 and 18 months. At each time point, histologic sections were treated with the direct fluorescein-labelled TUNEL method and immunostained for pancreatic hormones (glucagon, insulin), apoptotic promoters (Bak, Bax, Fas, Fas Ligand) as well as for the anti-apoptotic peptide Bcl-2. All tissue sections were investigated using confocal laser scanning microscopy under identical settings for semiquantitative estimation of staining intensity. TUNEL-positive cells occurred in all pre- or postnatal stages. The findings indicated a biphasic apoptotic activity in the endocrine pancreas during the lifetime of rats. The first phase began at E19 and peaked at P5 accompanied by a considerable increase in Bak fluorescence staining intensity, while the second phase began at P30 and peaked at 18 months with increasing amounts of Fas and FasL staining intensities in the islet cells. The presented in situ data may be important for understanding the increased age-related vulnerability of islet cells and for studies of isolated and cultivated rat islets.
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PMID:Apoptosis and occurrence of Bcl-2, Bak, Bax, Fas and FasL in the developing and adult rat endocrine pancreas. 1100 Feb 81

Feeding diabetes-prone BioBreeding (BBdp) rats a hydrolysed-casein (HC)-based semi-purified diet results in two-to-three-fold fewer diabetes cases compared with feeding cereal-based diets such as NIH-07 (NIH). We showed previously that young NIH-fed BBdp rats had decreased islet area at a time when classic insulitis was minimal. Rats fed an HC diet maintained near normal islet area followed 3-4 weeks later by a deviation of the pancreas cytokine pattern from Th1 to Th2/Th3. This finding raised the possibility that BBdp rats were more susceptible to diet-induced changes in islet homeostasis. To investigate this possibility further, BBdp rats were fed an NIH or HC diet from days 23 to 45. Bouin's fixed sections of pancreas were stained with H & E or antibodies for insulin and glucagon. Cell proliferation nuclear antigen (PCNA) was used as a marker of cell proliferation and cells were stained for putative markers of islet neogenesis, cytokeratin 20 (CK20) and Bcl-2. Apoptotic bodies were recognized by morphological features and by TUNEL-positive staining. BBdp rats fed an HC diet had a significantly higher beta-cell fraction than rats fed NIH, whereas alpha-cell fraction and beta-cell size were not affected by diet or rat type. Apoptotic bodies of beta-cells were rare and unaffected by diet. The number of PCNA(+)beta-cells was not affected by diet. CK20 expression was localized in the ductular system and at the periphery of islets in rats aged 7 and 45 days. There were more CK20(+)islets in BBdp rats fed NIH than in those fed HC but the CK20 area fraction was unaffected by diet. Bcl-2 expression was scattered among ducts and central acinar cells. The number of extra-islet insulin(+)and glucagon(+)clusters (<four cells) was significantly higher in animals fed the HC diet compared with those fed NIH. Most of the insulin(+)clusters were also homeodomain-containing transcription factor pancreas duodenum homeobox gene-1 (PDX-1) positive. Glucagon(+)/PDX-1(+)clusters were rarely found. These data are consistent with a shift in pancreas homeostasis that maintains islet cell mass by increased islet neogenesis, a process that was enhanced in animals fed a diabetes-retardant diet.
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PMID:Hydrolysed casein diet protects BB rats from developing diabetes by promoting islet neogenesis. 1109 Feb 39

Isolated Langerhans islets are widely used for diabetic transplantation experiments and investigations of the mechanisms leading to the death or survival of insulin-producing cells in cultured islets. The present study was aimed at investigating programmed cell death and the role of apoptosis-associated peptides in insulin and glucagon cells of islets isolated from untreated rats and held in cultured suspension. Islets were removed from medium on days 0, 7, 14, 21 and 29, embedded in Epon, and semi-thin serial sections were prepared. At designated intervals, histologic sections were treated with the direct fluorescein-labelled TUNEL method and immunostained for pancreatic hormones (glucagon, insulin) and apoptotic peptides [Bak, Bax, Fas, Fas ligand (FasL)], as well as for the anti-apoptotic peptide Bcl-2. All tissue sections were investigated using confocal laser scanning microscopy under identical setting for semiquantitative estimation of staining intensity. The percentage of apoptotic cells was between 1.6 and 2.1% and most apoptotic cells were beta-cells. Corresponding cells often contained Bak and Bax. Fas and FasL were mostly detected in islet cells within the first week after preparing the cultured suspension. The insulin content was low (1.1 +/- 0.22 ng per islet) directly after isolation. It then increased progressively up to day 14, after which it began to decrease. Glucagon expression, on the other hand, remained high for the entire duration of the investigation. In conclusion, the islet beta-cells may recover after the isolation procedure, but after 4 weeks in culture, both the insulin content and Bcl-2 staining decrease. Moreover, apoptosis is mediated by different mechanisms after the isolation procedure and after culturing the islets for 1 month. The present data may be important for further studies on isolated, cultivated or transplanted islets.
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PMID:Apoptosis in cultured rat islets of langerhans and occurrence of Bcl-2, Bak, Bax, Fas and Fas ligand. 1139 51

In this report we describe the identification of a novel cell type in human and canine pancreas using tissue culture techniques. These cells, representing less than 1% of total islet cells, are of a small size (7-10 microm) and highly quiescent. They display a fairly immature morphology, which is characterized by a weakly developed protein synthesis machinery, a few mitochondria and a small number of neuroendocrine granules. These cells, which we have termed "small cells," are usually organized into small clusters, which can be identified within the islets of predominantly small size. They can also be collected as separate structures from preparations of freshly isolated islets. Immunohistochemically, small cells are positive for PDX-1, synaptophysin, insulin, glucagon, somatostatin, pancreatic polypeptide, alpha-fetaprotein and Bcl-2 and negative for cytokeratin 19 and nestin. Insulin secretion studies demonstrated that these cells secrete insulin in a glucose-responsive fashion, although do not respond to secretagogues such as IBMX and arginine as do mature beta cells. Although this study does not provide evidence of the proliferative and differentiation potential of small cells, their immature morphology, along with a small size and quiescence, let us hypothesize that these cells may serve as progenitors contributing to the islet growth.
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PMID:Identification and characterization of small cells in the adult pancreas: potential progenitor cells? 1224 83

The activation of the glucagon-like peptide-1 (GLP-1) receptor has been shown to have an important role in the functional activity of islet beta-cells and in the expansion of the islet cell mass. Constant remodeling of islet cell mass is mediated in vivo by proliferative and apoptotic stimuli to ensure a dynamic response to a changing demand for insulin. The present study was undertaken to investigate the biological activity of GLP-1 when cells were challenged by a proapoptotic stimulus. We have shown that activation of the GLP-1 receptor inhibits H(2)O(2)-induced apoptosis in a cultured mouse insulinoma cell line, termed MIN6. GLP-1 reduced DNA fragmentation and improved cell survival. This was mediated by an increased expression of the antiapoptotic proteins Bcl-2 and Bcl-xL. GLP-1 also prevented the H(2)O(2)-dependent cleavage of poly-(ADP-ribose)-polymerase. Inhibition of the GLP-1-dependent increase of cAMP by Rp-cAMP blocked the antiapoptotic action of GLP-1, as determined by DNA fragmentation and poly-(ADP-ribose)-polymerase assays and by detection of Bcl-2 and Bcl-xL protein levels. Investigation of the role of the protein kinases, PI-3 kinase (PI3K) and MAPK, by use of the inhibitors PD098059 and LY294002 demonstrated that the activation of PI3K, but not MAPK, was required to prevent proapoptotic events in cells exposed to H(2)O(2). The present study provides evidence that GLP-1 has an antiapoptotic action mediated by a cAMP- and PI3K-dependent signaling pathway.
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PMID:Glucagon-like peptide-1 inhibits apoptosis of insulin-secreting cells via a cyclic 5'-adenosine monophosphate-dependent protein kinase A- and a phosphatidylinositol 3-kinase-dependent pathway. 1263 28

Glucagon-like peptide 2 (GLP-2) is a gut hormone that stimulates mucosal growth in total parenteral nutrition (TPN)-fed piglets; however, the dose-dependent effects on apoptosis, cell proliferation, and protein synthesis are unknown. We studied 38 TPN-fed neonatal piglets infused iv with either saline or GLP-2 at three rates (2.5, 5.0, and 10.0 nmol.kg(-1).d(-1)) for 7 d. Plasma GLP-2 concentrations ranged from 177 +/- 27 to 692 +/- 85 pM in the low- and high-infusion groups, respectively. GLP-2 infusion dose-dependently increased small intestinal weight, DNA and protein content, and villus height; however, stomach protein synthesis was decreased by GLP-2. Intestinal crypt and villus apoptosis decreased and crypt cell number increased linearly with GLP-2 infusion rates, whereas cell proliferation and protein synthesis were stimulated only at the high GLP-2 dose. The intestinal activities of caspase-3 and -6 and active caspase-3 abundance decreased, yet procaspase-3 abundance increased markedly with increasing infusion rate and plasma concentration of GLP-2. The GLP-2-dose-dependent suppression of intestinal apoptosis and caspase-3 activity was associated with increased protein kinase B and glycogen-synthase kinase-3 phosphorylation, yet the expression phosphatidylinositol 3-kinase was unaffected by GLP-2. Intestinal endothelial nitric oxide synthase mRNA and protein expression was increased, but only at the high GLP-2 dose. We conclude that the stimulation of intestinal epithelial survival is concentration dependent at physiological GLP-2 concentrations; however, induction of cell proliferation and protein synthesis is a pharmacological response. Moreover, we show that GLP-2 stimulates intestinal cell survival and proliferation in association with induction of protein kinase B and glycogen-synthase kinase-3 phosphorylation and Bcl-2 expression.
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PMID:Glucagon-like peptide 2 dose-dependently activates intestinal cell survival and proliferation in neonatal piglets. 1560 3

Glucose intolerance is often observed after pancreatic islet cell transplantation. The administration of immunosuppressive agents (ISD), necessary to avoid tissue rejection, is in part responsible for hyperglycemia. To investigate whether mouse insulinoma (MIN6) cells transfected with the glucagon like peptide-1 (GLP-1) fragment of the proglucagon gene (RIP/GLP-1 MIN6 cells) are resistant to the toxicity derived from the administration of ISD. RIP/GLP-1 MIN6 cells, as well as parental MIN6 cells, were exposed to a cocktail of ISD. The secretion of insulin and the expression of apoptosis-related proteins were investigated by RIA and western blot analysis. Cell apoptosis was quantified by FACS analysis. Finally, to study whether the antiapoptotic action of GLP-1 was a function of its effect on insulin secretion, or rather it was a direct effect of GLP-1, cells were cultured with or without diazoxide or exendin-9. GLP-1 improved the functional activity and the viability of cells exposed to ISD. The insulin secretion of RIP/GLP-1 MIN6 cells after exposure to ISD was preserved. The expression of GLP-1 by beta-cells reduced the number of apoptotic cells and increased the expression of the antiapoptotic protein Bcl-2. GLP-1 also decreased the abundance of the proapoptotic markers PARP-p85 and Smac/Diablo. Treatment of cells with the diazoxide did not abolish the protective advantage that cells transfected with GLP-1 had; conversely the exposure of cells to exendin-9 was associated with a restored susceptibility to apoptosis. This report demonstrates that GLP-1 is capable of preserving beta-cell function and protecting cells from apoptotic cell death.
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PMID:Pancreatic beta-cells expressing GLP-1 are resistant to the toxic effects of immunosuppressive drugs. 1582 Nov 4

Glucocorticoid excess induces hyperglycemia, which may result in diabetes. The present experiments explored whether glucocorticoids trigger apoptosis in insulin-secreting cells. Treatment of mouse beta-cells or INS-1 cells with the glucocorticoid dexamethasone (0.1 micromol/l) over 4 days in cell culture increased the number of fractionated nuclei from 2 to 7 and 14%, respectively, an effect that was reversed by the glucocorticoid receptor antagonist RU486 (1 micromol/l). In INS-1 cells, dexamethasone increased the number of transferase-mediated dUTP nick-end labeling-staining positive cells, caspase-3 activity, and poly-(ADP-) ribose polymerase protein cleavage; decreased Bcl-2 transcript and protein abundance; dephosphorylated the proapoptotic protein of the Bcl-2 family (BAD) at serine155; and depolarized mitochondria. Dexamethasone increased PP-2B (calcineurin) activity, an effect abrogated by FK506. FK506 (0.1 micromol/l) and another calcineurin inhibitor, deltamethrin (1 micromol/l), attenuated dexamethasone-induced cell death. The stable glucagon-like peptide 1 analog, exendin-4 (10 nmol/l), inhibited dexamethasone-induced apoptosis in mouse beta-cells and INS-1 cells. The protective effect of exendin-4 was mimicked by forskolin (10 micromol/l) but not mimicked by guanine nucleotide exchange factor with the specific agonist 8CPT-Me-cAMP (50 micromol/l). Exendin-4 did not protect against cell death in the presence of cAMP-dependent protein kinase (PKA) inhibition by H89 (10 micromol/l) or KT5720 (5 micromol/l). In conclusion, glucocorticoid-induced apoptosis in insulin-secreting cells is accompanied by a downregulation of Bcl-2, activation of calcineurin with subsequent dephosphorylation of BAD, and mitochondrial depolarization. Exendin-4 protects against glucocorticoid-induced apoptosis, an effect mimicked by forskolin and reversed by PKA inhibitors.
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PMID:Dexamethasone induces cell death in insulin-secreting cells, an effect reversed by exendin-4. 1664 95

We previously demonstrated the dose-dependent glucagon-like peptide (GLP)-2 activation of intracellular signals associated with increased epithelial cell survival and proliferation in the neonatal intestine. Our current aim was to quantify the acute, temporal GLP-2 activation of these key intracellular signals and relate this to changes in epithelial cell survival and proliferation in the neonatal intestine. We studied 29 total parenteral nutrition-fed neonatal piglets infused intravenously with either saline (control) or human GLP-2 (420 micromol.kg(-1).h(-1)) for 1, 4, or 48 h. GLP-2 infusion increased small intestinal weight, DNA and protein content, and villus height at 48 h, but not at 1 or 4 h. Intestinal crypt and villus apoptosis decreased and crypt cell proliferation and protein synthesis increased linearly with duration of GLP-2 infusion, but were statistically different from controls only after 48 h. Before the morphological and cellular kinetic changes, GLP-2 rapidly activated putative GLP-2 receptor downstream signals within 1-4 h, including phosphorylation of protein kinase A, protein kinase B, extracellular signal-regulated kinase 1/2, and the transcription factors cAMP response element-binding protein and c-Fos. GLP-2 rapidly suppressed caspase-3 activation and upregulated Bcl-2 abundance within 1 h, whereas there was an increase in apoptosis inhibitors X-linked inhibitor of apoptosis at 1 h and cellular inhibitor of apoptosis-2 at 4 and 48 h. We also show that the increased c-Fos and reduced active caspase-3 immunostaining after GLP-2 infusion was localized in epithelial cells. We conclude that GLP-2-induced activation of intracellular signals involved in both cell survival and proliferation occurs rapidly and precedes the trophic cellular kinetic effects that occur later in intestinal epithelial cells.
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PMID:GLP-2 rapidly activates divergent intracellular signaling pathways involved in intestinal cell survival and proliferation in neonatal piglets. 1695 36

Alzheimer's disease (AD) is the most common form of dementia. Glucagon-like peptide-1 (GLP-1) gives a new genre in therapeutic targets for intervention in AD with its neurotrophic and neuroprotective functions. In previous work, we identified that geniposide is a novel agonist for GLP-1 receptor, which shows neurotrophic characteristics to induce the neuronal differentiation of PC12 cells. The aim of this study is to determine whether geniposide prevents neurons from oxidative damage, and to explore its signaling pathways. The results demonstrated that geniposide increased the expression of anti-apoptotic proteins, including Bcl-2 and heme oxygenase-1 (HO-1), to antagonize the oxidative damage in PC12 cells induced by hydrogen peroxide. LY294002 (a PI3K inhibitor) inhibited the effect of geniposide increasing of Bcl-2 level by activation of MAPK, MEK and c-Raf phosphorylation in hydrogen peroxide treated PC12 cells. U0126 (a selective inhibitor of MEK) also attenuated the enhancement of geniposide on Bcl-2 level by inhibiting the phosphorylation of p90RSK in the hydrogen peroxide treated PC12 cells. All these data demonstrate that geniposide, an agonist for GLP-1 receptor, regulates expression of anti-oxidative proteins including HO-1 and Bcl-2 by activating the transcriptor of p90RSK via MAPK signaling pathway in PC12 cells.
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PMID:Geniposide, a novel agonist for GLP-1 receptor, prevents PC12 cells from oxidative damage via MAP kinase pathway. 1762 57


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