UNIPROT:P10415 - FACTA Search

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Query: UNIPROT:P10415 (Bcl-2)
33,771 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Ghrelin is an endogenous ligand for the GH secretagogue receptor, produced and secreted mainly from the stomach. Ghrelin stimulates GH release and induces positive energy balances. Previous studies have reported that ghrelin inhibits apoptosis in several cell types, but its antiapoptotic effect in neuronal cells is unknown. Therefore, we investigated the role of ghrelin in ischemic neuronal injury using primary hypothalamic neurons exposed to oxygen-glucose deprivation (OGD). Here we report that treatment of hypothalamic neurons with ghrelin inhibited OGD-induced cell death and apoptosis. Exposure of neurons to ghrelin caused rapid activation of ERK1/2. Ghrelin-induced activation of ERK1/2 and the antiapoptotic effect of ghrelin were blocked by chemical inhibition of MAPK, phosphatidylinositol 3 kinase, protein kinase C, and protein kinase A. Ghrelin attenuated OGD-induced activation of c-Jun NH2-terminal kinase and p-38 but not ERK1/2. We also investigated ghrelin regulation of apoptosis at the mitochondrial level. Ghrelin protected cells from OGD insult by inhibiting reactive oxygen species generation and stabilizing mitochondrial transmembrane potential. In addition, ghrelin-treated cells showed an increased Bcl-2/Bax ratio, prevention of cytochrome c release, and inhibition of caspase-3 activation. Finally, in vivo administration of ghrelin significantly reduced infarct volume in an animal model of ischemia. Our data indicate that ghrelin may act as a survival factor that preserves mitochondrial integrity and inhibits apoptotic pathways.
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PMID:Ghrelin inhibits apoptosis in hypothalamic neuronal cells during oxygen-glucose deprivation. 1705 24

Ghrelin is a novel brain-gut peptide and the endogenous ligand of growth hormone secretagogue receptor 1a (GHSR-1a). Evidences have been shown that ghrelin inhibited cell apoptosis in cardiocytes, endotheliocytes, osteoblasts, and so on. Recently, it was reported that ghrelin inhibited neuronal apoptosis of hypothalamus and hippocampus. However, little is known about the effects of ghrelin on cortical neurons during focal ischemia/reperfusion injury. In the present study, we showed that ghrelin (i.v.) prevented cortical neurons from injury induced by ischemia/reperfusion in vivo and by LPS, glutamate, NMDA and H(2)O(2) in vitro. We found that the expression of ghrelin's receptor (GHSR-1a) in rat cerebral cortex were obviously decreased by ischemia/reperfusion injury and increased by ghrelin (i.v.). Ghrelin up-regulated the expression of Bcl-2/Bax and HSP70, and inhibited caspase8, 9, 3 through GHSR-1a, which was contributed to the neuroprotective mechanism of ghrelin. Ghrelin might be an important regulator in therapeutic strategy of cortex injury.
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PMID:Ghrelin protects cortical neuron against focal ischemia/reperfusion in rats. 1756 May 44

Ghrelin stimulates growth hormone (GH) release and induces positive energy balances. Previous studies have reported that ghrelin inhibits apoptosis in several cell types but the precise underlying protective mechanisms in pancreatic beta cells are poorly understood. Therefore, we investigated which pathway was related with its anti-apoptotic effect in pancreatic beta cells. Exposure of HIT-T15 cells to ghrelin caused a rapid activation of MAPKs and Akt. Chemical inhibitors of MAPK and PI3K blocked the anti-apoptotic of ghrelin. Ghrelin also stimulated the mitochondrial pathways of apoptosis and it showed increased Bcl-2, decreased Bax, prevention cytochrome c release and inhibition of caspase-3 activation in pancreatic beta cell line HIT-T15. Our findings suggest that ghrelin may act as a survival factor that inhibits the apoptotics pathways, and the MAPKs, AKT pathways could be key roles in the apoptosis of pancreatic beta cells.
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PMID:Ghrelin inhibit cell apoptosis in pancreatic beta cell line HIT-T15 via mitogen-activated protein kinase/phosphoinositide 3-kinase pathways. 1760 20

Only acylated ghrelin (AG) binds GH secretagog receptor 1a (GHS-R1a) and has central endocrine activities. An anti-apoptotic effect of AG in neuronal cells has recently been reported. However, whether there is a neuroprotective effect of unacylated ghrelin (UAG), the most abundant form of ghrelin in plasma, is still unknown. Therefore, we investigated whether UAG was neuroprotective against ischemic neuronal injury using primary cultured rat cortical neurons exposed to oxygen and glucose deprivation (OGD). Both AG and UAG inhibited OGD-induced apoptosis. Exposure of cells to the receptor-specific antagonist D-Lys-3-GHRH-6 abolished the protective effects of AG against OGD, whereas those of UAG were preserved, suggesting the involvement of a receptor that is distinct from GHS-R1a. Chemical inhibition of MAPK and phosphatidylinositol-3-kinase (PI3K) blocked the anti-apoptotic effects of AG and UAG. Ghrelin siRNA enhanced apoptosis either during OGD or even in normoxic conditions. The protective effects of AG and UAG were accompanied by an increased phosphorylation of extracellular signal-regulated kinase (ERK)1/2, Akt, and glycogen synthase kinase-3beta (GSK-3beta). Furthermore, treatment of cells with AG or UAG resulted in nuclear translocation of beta-catenin. In addition, both AG and UAG increased the Bcl-2/Bax ratio, prevented cytochrome c release, and inhibited caspase-3 activation. The data indicate that, independent of acylation, ghrelin can function as a neuroprotective agent that inhibits apoptotic pathways. These effects may be mediated via activation of the MAPK and PI3K/Akt pathways. Our data also suggest that PI3K/Akt-mediated inactivation of GSK-3beta and stabilization of beta-catenin contribute to the anti-apoptotic effects of ghrelin.
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PMID:Phosphatidylinositol-3-kinase/Akt/glycogen synthase kinase-3 beta and ERK1/2 pathways mediate protective effects of acylated and unacylated ghrelin against oxygen-glucose deprivation-induced apoptosis in primary rat cortical neuronal cells. 1854 46

Ghrelin, a stomach-derived hormone which induces growth hormone release and promotes positive energy balance, has been reported to inhibit cell apoptosis in endotheliocytes, osteoblasts and cardiocytes. Recent evidence has shown that ghrelin can also inhibit neuronal apoptosis of the hypothalamus and the hippocampus. However, little is known about the effects of ghrelin on the substantia nigra pars compacta (SNpc) neurons in which ghrelin's receptor, growth hormone secretagogue receptor (GHSR)-1a, is highly expressed. In the present study, we investigated whether ghrelin could protect nigral dopaminergic neurons against 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-induced neurotoxicity in mice. We observed that ghrelin, acting through GHS-R 1a, inhibited MPTP-induced dopaminergic neuronal loss in the SNpc as well as dopamine depletion in the striatum. Ghrelin could also reverse the down-regulated the expression of Bcl-2, up-regulated the expression of Bax, and caspase-3 activation caused by MPTP. This study demonstrated that ghrelin might be a potential protector of dopaminergic neurons in a therapeutic strategy for Parkinson's disease.
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PMID:Ghrelin antagonizes MPTP-induced neurotoxicity to the dopaminergic neurons in mouse substantia nigra. 1857 98

Ghrelin is known to promote neuronal defense and survival against ischemic injury by inhibiting apoptotic processes. In the present study, we investigated the role of prostate apoptosis response-4 (Par-4), a proapoptotic gene the expression of which is increased after ischemic injury, in ghrelin-mediated neuroprotection during middle cerebral artery occlusion (MCAO). Both ghrelin and des-acyl ghrelin protected cortical neurons from ischemic injury. Ghrelin receptor specific antagonist abolished the protective effects of ghrelin, whereas those of des-acyl ghrelin were preserved, suggesting the involvement of a receptor that is distinct from GHS-R1a. The expression of Par-4 was increased by MCAO, which was attenuated by ghrelin and des-acyl ghrelin treatments. Both ghrelin and des-acyl ghrelin increased the Bcl-2/Bax ratio, prevented cytochrome c release, and inhibited caspase-3 activation. Our data indicate that des-acyl ghrelin, as well as ghrelin, protect cortical neurons against ischemic injury through the inhibition of Par-4 expression and apoptotic molecules in mitochondrial pathway.
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PMID:Neuroprotective effect of ghrelin is associated with decreased expression of prostate apoptosis response-4. 1935 52

Ghrelin, a 28-amino-acid peptide, is mainly secreted by the stomach. Evidence has shown ghrelin to have neuroprotective effects. However, whether ghrelin protects hippocampal neurons against cell death in pilocarpine-induced seizures is unknown. We used Nissl staining to show that ghrelin attenuated the neuronal loss caused by pilocarpine-induced seizures in the hippocampus. Ghrelin exerted the protective action through regulating the phosphatidylinositol-3-kinase and Akt pathway. Moreover, ghrelin treatment reversed the decreased ratio of Bcl-2 to Bax induced by seizures while inhibiting the activated caspase-3. Ghrelin can inhibit hippocampal neuronal damage caused by pilocarpine-induced seizures, which might have therapeutic value in seizures.
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PMID:Ghrelin protects against cell death of hippocampal neurons in pilocarpine-induced seizures in rats. 1942 16

Poorly controlled diabetes is associated with hormonal imbalances, including decreased prolactin production partially due to increased lactotroph apoptosis. In addition to its metabolic actions, ghrelin inhibits apoptosis in several cell types. Thus, we analyzed ghrelin's effects on diabetes-induced pituitary cell death and hormonal changes. Six weeks after onset of diabetes in male Wistar rats (streptozotocin 70 mg/kg), minipumps infusing saline or 24 nmol ghrelin/day were implanted (jugular). Rats were killed two weeks later. Ghrelin did not modify body weight or serum glucose, leptin or adiponectin, but increased total ghrelin (P<0.05), IGF-I (P<0.01) and prolactin (P<0.01) levels. Ghrelin decreased cell death, iNOS and active caspase-8 (P<0.05) and increased prolactin (P<0.05), Bcl-2 (P<0.01) and Hsp70 (P<0.05) content in the pituitary. In conclusion, ghrelin prevents diabetes-induced death of lactotrophs, decreasing caspase-8 activation and iNOS content and increasing anti-apoptotic pathways such as pituitary Bcl-2 and Hsp70 and serum IGF-I concentrations.
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PMID:Ghrelin treatment protects lactotrophs from apoptosis in the pituitary of diabetic rats. 1954 Mar 4

Ghrelin is a 28-amino-acid peptide secreted predominantly by X/A-like cells of the gastric fundus. Ghrelin increases pancreatic beta-cell proliferation and survival via sequential activation of phosphatidylinositol-3 kinase (PI3K) and Akt. The transcription regulator Foxo1 is a prominent effector of PI3K/Akt; when it is inhibited, pancreatic beta-cells are protected against fatty-acid-induced apoptosis. We investigated the role of Foxo1 in the protective effect of ghrelin under lipotoxic conditions in the MIN6 pancreatic beta-cell line. Results showed that ghrelin promoted cell proliferation and attenuated palmitate-induced apoptosis in cultured MIN6 cells. Nuclear exclusion of Foxo1 was necessary for the function of ghrelin. Treatment of MIN6 cells with palmitate and ghrelin-induced rapid nuclear exclusion and phosphorylation of Foxo1. Unlike the JNK inhibitor SP600125, Akt inhibitor IV blocked the anti-lipotoxic effect of ghrelin and stimulated Foxo1 nuclear translocation. In addition, treatment with ghrelin combined with SP600125 showed a synergistic antiapoptotic effect in palmitate-treated MIN6 cells. Ghrelin also inhibited the endoplasmic reticulum stress pathway of apoptosis in MIN6 cells, decreased expression of cytoplasmic triglyceride, and downregulated gene expression of Bcl-2-associated X (BAX), sterol-response element-binding protein 1c (SREBP1c), and C/EBP homologous protein (CHOP-10). These findings suggest that ghrelin protects pancreatic beta-cells from lipotoxicity by inhibiting the nuclear translocation of Foxo1.
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PMID:Inhibition of Foxo1 mediates protective effects of ghrelin against lipotoxicity in MIN6 pancreatic beta-cells. 1994 24

Metastasis is a final step in the progression of mammary gland cancer, usually leading to death. Potentially, a molecular signature of metastasis can be defined via comparison of primary tumors with their metastases. Currently, there is no data in the literature regarding the molecular portrait of metastases in dogs and only few reports regarding human cancer. This is the first report describing the transcriptomic signature of canine cancer metastatic cells. Two adenocarcinoma cell lines isolated from the canine mammary gland (CMT-W1 and CMT-W2) were compared with cell lines isolated from their lung metastases (CMT-W1M and CMT-W2M) with regards to the following cytometric parameters: cell cycle, ploidy, Bcl-2 expression, susceptibility to induced apoptosis, and transcriptomic profile. Cytometric analyses revealed significant differences in cell cycle and antiapoptotic potential between the examined cells. Using oligonucleotide microarrays, we found 104 up-regulated genes in the metastatic cell line CMT-W1M and 21 up-regulated genes in the primary CMT-W1 cell line. We also found 83 up-regulated genes in the CMT-W2M cell line and only 21 up-regulated genes in the CMT-W2 cell line. Among the up-regulated genes in both metastatic cell lines, we found 15 common genes. These differently expressed genes are involved mainly in signal transduction, cell structure and motility, nucleic acid metabolism, developmental processing, and apoptosis (GHSR, RASSF1, ARF1GAP, WDR74, SMOC2, SFRP4, DIAPH1, FSCN1, ALX4, SNX15, PLD2, WNT7B, POU6F2, NKG7, and POLR2F). Seven of them are involved in a cellular pathway dependent on ghrelin via growth hormone secretagogue receptor (GHSR). Our results suggest that this pathway may be essential for mammary cancer cells to have a metastatic potential.
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PMID:Transcriptomic signature of cell lines isolated from canine mammary adenocarcinoma metastases to lungs. 2014 99

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