Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P05412 (c-Jun)
11,453 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The proteasome inhibitor bortezomib (Velcade) is known to trigger endoplasmic reticulum (ER) stress via the accumulation of obsolete and damaged proteins. The selective cyclooxygenase-2 (COX-2) inhibitor celecoxib (Celebrex) causes ER stress through a different mechanism (i.e., by causing leakage of calcium from the ER into the cytosol). Each of these two mechanisms has been implicated in the anticancer effects of the respective drug. We therefore investigated whether the combination of these two drugs would lead to further increased ER stress and would enhance their antitumor efficacy. With the use of human glioblastoma cell lines, we show that this is indeed the case. When combined, bortezomib and celecoxib triggered elevated expression of the ER stress markers GRP78/BiP and CHOP/GADD153, caused activation of c-Jun NH(2)-terminal kinase and ER stress-associated caspase-4, and greatly increased apoptotic cell death. Small interfering RNA-mediated knockdown of the protective ER chaperone GRP78/BiP further sensitized the tumor cells to killing by the drug combination. The contribution of celecoxib was independent of the inhibition of COX-2 because a non-coxib analogue of this drug, 2,5-dimethyl-celecoxib (DMC), faithfully and more potently mimicked these combination effects in vitro and in vivo. Taken together, our results show that combining bortezomib with celecoxib or DMC very potently triggers the ER stress response and results in greatly increased glioblastoma cytotoxicity. We propose that this novel drug combination should receive further evaluation as a potentially effective anticancer therapy.
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PMID:Aggravated endoplasmic reticulum stress as a basis for enhanced glioblastoma cell killing by bortezomib in combination with celecoxib or its non-coxib analogue, 2,5-dimethyl-celecoxib. 1824 86

Accumulation of abnormal proteins occurs in many neurodegenerative diseases including Huntington's disease (HD). However, the precise role of protein aggregation in neuronal cell death remains unclear. We show here that the expression of N-terminal huntingtin proteins with expanded polyglutamine (polyQ) repeats causes cell death in neuronal PC6.3 cell that involves endoplasmic reticulum (ER) stress. These mutant huntingtin fragment proteins elevated Bip, an ER chaperone, and increased Chop and the phosphorylation of c-Jun-N-terminal kinase (JNK) that are involved in cell death regulation. Caspase-12, residing in the ER, was cleaved in mutant huntingtin expressing cells, as was caspase-3 mediating cell death. In contrast, cytochrome-c or apoptosis inducing factor (AIF) was not released from mitochondria after the expression of these proteins. Treatment with salubrinal that inhibits ER stress counteracted cell death and reduced protein aggregations in the PC6.3 cells caused by the mutant huntingtin fragment proteins. Salubrinal upregulated Bip, reduced cleavage of caspase-12 and increased the phosphorylation of eukaryotic translation initiation factor-2 subunit-alpha (eIF2alpha) that are neuroprotective. These results show that N-terminal mutant huntingtin proteins activate cellular pathways linked to ER stress, and that inhibition of ER stress by salubrinal increases cell survival. The data suggests that compounds targeting ER stress may be considered in designing novel approaches for treatment of HD and possibly other polyQ diseases.
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PMID:Inhibition of endoplasmic reticulum stress counteracts neuronal cell death and protein aggregation caused by N-terminal mutant huntingtin proteins. 1825 62

Apoptosis plays a critical role in the diabetic cardiomyopathy, and endoplasmic reticulum stress (ERS) is one of the intrinsic apoptosis pathways. Previous studies have shown that the endoplasmic reticulum becomes swollen and dilated in diabetic myocardium, and ERS is involved in heart failure and diabetic kidney. This study is aimed to demonstrate whether ERS is induced in myocardium of streptozotocin (STZ)-induced diabetic rats. We established a type 1 diabetic rat model, used echocardiographic evaluation, hematoxylin-eosin staining, and the terminal deoxynucleotidyl transferase-mediated DNA nick-end labeling staining to identify the existence of diabetic cardiomyopathy and enhanced apoptosis in the diabetic heart. We performed immunohistochemistry, western blot, and real-time PCR to analyze the hallmarks of ERS that include glucose-regulated protein 78, CCAAT/enhancer-binding protein homologous protein (CHOP) and caspase12. We found these hallmarks to have enhanced expression in protein and mRNA levels in diabetic myocardium. Also, another pathway that can lead to cell death of ERS, c-Jun NH(2)-terminal kinase-dependent pathway, was also activated in diabetic heart. Those results suggested that ERS was induced in STZ-induced diabetic rats' myocardium, and ERS-associated apoptosis occurred in the pathophysiology of diabetic cardiomyopathy.
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PMID:Endoplasmic reticulum stress is involved in myocardial apoptosis of streptozocin-induced diabetic rats. 2084 65

Macrophage death in advanced atherosclerotic lesions leads to lesional necrosis, possible plaque rupture, and acute vascular occlusion. A likely cause of macrophage death is the accumulation of free cholesterol (FC) leading to activation of endoplasmic reticulum (ER) stress-induced apoptosis. Inositol-requiring enzyme 1 alpha (IRE1alpha) is an integral membrane protein of the ER that is a key signaling step in cholesterol-induced apoptosis in macrophages, activated by stress in the ER. However, the role of IRE1alpha in the regulation of ER stress-induced macrophage death and the mechanism for this process are largely unclear. In this study, a cell culture model was used to explore the mechanisms involved in the ER stress pathway of FC-induced macrophage death. The results herein showed that FC loading of macrophages leads to an apoptotic response that is partially dependent on initiation by activation of IRE1alpha. Taken together, these results showed that the IRE1-apoptosis-signaling kinase 1-c-Jun NH2-terminal kinase cascade pathway was required in this process. Moreover, the data suggested a novel cellular mechanism for cholesterol-induced macrophage death in advanced atherosclerotic lesions. The critical function of this signaling cascade is indicated by prevention of ER stress-induced apoptosis after inhibition of IRE1alpha, or c-Jun NH2-terminal kinase.
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PMID:Free cholesterol-induced macrophage apoptosis is mediated by inositol-requiring enzyme 1 alpha-regulated activation of Jun N-terminal kinase. 1833 Apr 77

Chronic alcohol intake leads to alcoholic cardiomyopathy characterized by cardiac hypertrophy and contractile dysfunction possibly related to the toxicity of the ethanol metabolite acetaldehyde. This study examined the impact of augmented acetaldehyde exposure on myocardial function, geometry, and insulin signaling via cardiac-specific overexpression of alcohol dehydrogenase (ADH). ADH transgenic and wild-type FVB mice were placed on a 4% alcohol diet for 12 weeks. Echocardiographic, glucose tolerance, glucose uptake, insulin signaling, and ER stress indices were evaluated. Mice consuming alcohol exhibited glucose intolerance, dampened cardiac glucose uptake, cardiac hypertrophy and contractile dysfunction, all of which with the exception of whole body glucose tolerance were exaggerated by the ADH transgene. Cardiomyocytes from ethanol-fed mice exhibited depressed insulin-stimulated phosphorylation insulin receptor (tyr1146) and IRS-1 (tyrosine) as well as enhanced serine phosphorylation of IRS-1. ADH-augmented alcohol-induced effect of IRS-1 phosphorylation (tyrosine/serine). Neither alcohol nor adh affected expression of insulin receptor and IRS-1. Alcohol reduced phosphorylation of Akt and GSK-3beta as well as GSK-3beta expression and the effect was exaggerated by ADH. The transcriptional factors GATA4, c-jun and c-jun phosphorylation were upregulated by alcohol, which was amplified by ADH. The ratios of phospho-c-Jun/c-Jun and phospho-GATA4/GATA4 remained unchanged. Chronic alcohol intake upregulated expression of the endoplasmic reticulum stress markers eIF2alpha, IRE-1alpha, GRP78 and gadd153, the effect of which was exaggerated by ADH. These data suggest that elevated cardiac acetaldehyde exposure via ADH may exacerbate alcohol-induced myocardial dysfunction, hypertrophy, insulin insensitivity and ER stress, indicating a key role of ADH gene in alcohol-induced cardiac dysfunction and insulin resistance.
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PMID:Cardiac overexpression of alcohol dehydrogenase exacerbates chronic ethanol ingestion-induced myocardial dysfunction and hypertrophy: role of insulin signaling and ER stress. 1847 4

The discovery of "ground glass" hepatocytes (GGH) that contain hepatitis B virus (HBV) surface antigens by Hadziyannis and Popper in 1973 represents a historical landmark in the pathology of chronic HBV infection. Different types of GGH have been correlated to the expression patterns of surface/core antigens and the stages of virus replication. The original two types (designated types I & II) of GGH were found to contain specific pre-S mutants with deletions over either pre-S1 or pre-S2 regions, respectively. Type II GGH consistently harbor pre-S2 deletion mutants, which can escape from immune attack and grow preferentially to form clusters. Both types of pre-S mutants can induce endoplasmic reticulum (ER) stress and oxidative DNA damage. The pre-S2 mutants, albeit inducing a weaker level of ER stress signals, could additionally initiate ER stress-independent retinoblastoma/adenovirus E2 promoter binding factor/cyclin A signaling through their interaction with c-Jun activation domain binding protein 1 to degrade p27, illustrating the growth advantage of type II GGH. The combined effects of genomic instability and the proliferation of hepatocytes harboring pre-S mutants could potentially lead to hepatocarcinogenesis over the decades of chronic HBV infection. The presence of pre-S mutants in sera was reported to carry a high risk of developing hepatocellular carcinoma (HCC). Furthermore, transgenic mice harboring pre-S2 mutant plasmids have been shown to develop a dysplastic change of hepatocytes and HCC. Therefore, in addition to being a histological marker of chronic HBV infection, GGH, particularly type II GGH, may represent the preneoplastic lesions of HBV-related HCC.
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PMID:Ground glass hepatocytes contain pre-S mutants and represent preneoplastic lesions in chronic hepatitis B virus infection. 1850 13

The endoplasmic reticulum (ER) is exquisitely sensitive to changes in its internal environment. Various conditions, collectively termed "ER stress", can perturb ER function, leading to the activation of a complex response known as the unfolded protein response (UPR). Although c-Jun N-terminal kinase (JNK) activation is nearly always associated with cell death by various stimuli, the functional role of JNK in ER stress-induced cell death remains unclear. JNK regulates gene expression through the phosphorylation and activation of transcription factors, such as c-Jun. Here, we investigated the role of c-Jun in the regulation of ER stress-related genes. c-Jun expression levels determined the response of mouse fibroblasts to ER stress induced by thapsigargin (TG, an inhibitor of sarco/endoplasmic reticulum Ca(2+) ATPase). c-jun(-/-) mouse fibroblast cells were more sensitive to TG-induced cell death compared to wild-type mouse fibroblasts, while reconstitution of c-Jun expression in c-jun(-/-) cells (c-Jun Re) enhanced resistance to TG-induced cell death. The expression levels of ER chaperones Grp78 and Gadd153 induced by TG were lower in c-Jun Re than in c-jun(-/-) cells. Moreover, TG treatment significantly increased calcineurin activity in c-jun(-/-) cells, but not in c-Jun Re cells. In c-Jun Re cells, TG induced the expression of Adapt78, also known as the Down syndrome critical region 1 (DSCR1), which is known to block calcineurin activity. Taken together, our findings suggest that c-Jun, a transcription factor downstream of the JNK signaling pathway, up-regulates Adapt78 expression in response to TG-induced ER stress and contributes to protection against TG-induced cell death.
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PMID:c-Jun inhibits thapsigargin-induced ER stress through up-regulation of DSCR1/Adapt78. 1864 Oct 51

We developed several adenoviral vectors designed to target MDA-7 expression to different subcellular compartments [endoplasmic reticulum (ER), mitochondria, nucleus, and cytosol] and evaluated their ability to enhance apoptosis. Adenoviral ER-targeted mda-7/interleukin-24 vector (Ad-ER-mda7) selectively and effectively inhibited the growth and proliferation of lung (A549 and H1299) and esophageal (Seg1 and Bic1) cancer cells by enhancing cell killing. Both Ad-mda7 and Ad-ER-mda7 activated a novel pathway of ER stress-induced apoptosis characterized by unregulated expression of phosphorylated JNK, phosphorylated c-Jun, and phosphorylated RNA-dependent protein kinase. Caspase-4 activation mediated Ad-mda7- and Ad-ER-mda7-induced cell death. In addition, Ad-mda7- and Ad-ER-mda7-mediated growth inhibition correlated with activation of ER molecular markers RNA-dependent protein kinase and JNK both in vitro (in Ad-mda7- or Ad-ER-mda7-treated lung cancer cells) and in vivo. These findings suggest that vectors targeting the ER (Ad-ER-mda7) may be more effective in cancer gene therapy possibly through more effective induction or ER stress pathways.
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PMID:Adenoviral endoplasmic reticulum-targeted mda-7/interleukin-24 vector enhances human cancer cell killing. 1872 97

Leptin is an important circulating signal for inhibiting food intake and body weight gain. In recent years, "leptin resistance" has been considered to be one of the main causes of obesity. However, the detailed mechanisms of leptin resistance are poorly understood. Increasing evidence has suggested that stress signals, which impair endoplasmic reticulum (ER) function, lead to an accumulation of unfolded proteins, which results in ER stress. In the present study, we hypothesized that ER stress is involved in leptin resistance. Tunicamycin, thapsigargin, or brefeldin A was used to induce ER stress. The activation status of leptin signals was measured by Western blotting analysis using a phospho-(Tyr705) signal transducer and activator of transcription 3 (STAT3) antibody. We observed that ER stress markedly inhibited leptin-induced STAT3 phosphorylation. In contrast, ER stress did not affect leptin-induced c-Jun NH(2)-terminal kinase activation. These results suggest that ER stress induces leptin resistance. ER stress-induced leptin resistance was mediated through protein tyrosine phosphatase 1B but not through suppressors of cytokine signaling 3. It is noteworthy that a chemical chaperone, which could improve the protein-folding capacity, reversed ER stress-induced leptin resistance. Moreover, homocysteine, which induces ER stress, caused leptin resistance both in vitro and in vivo. Together, these findings suggest that the pathological mechanism of leptin resistance is derived from ER stress.
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PMID:Endoplasmic reticulum stress induces leptin resistance. 1875 73

The synthetic triterpenoid methyl-2-cyano-3,12-dioxoolean-1,9-dien-28-oate (CDDO-Me) is in phase I clinical trials as a novel cancer therapeutic agent. We previously showed that CDDO-Me induces c-Jun NH(2)-terminal kinase (JNK)-dependent death receptor 5 (DR5) expression and augments death receptor-induced apoptosis. The current study focused on addressing how CDDO-Me induces JNK-dependent DR5 expression. Analysis of DR5 promoter regions defines that the CCAAT/enhancer binding protein homologous protein (CHOP) binding site is responsible for CDDO-Me-induced transactivation of the DR5 gene. Consistently, CDDO-Me induced DR5 expression and parallel CHOP up-regulation. Blockade of CHOP up-regulation also abrogated CDDO-Me-induced DR5 expression. These results indicate that CDDO-Me induces CHOP-dependent DR5 up-regulation. Moreover, the JNK inhibitor SP600125 abrogated CHOP induction by CDDO-Me, suggesting a JNK-dependent CHOP up-regulation by CDDO-Me as well. Importantly, knockdown of CHOP attenuated CDDO-Me-induced apoptosis, showing that CHOP induction is involved in CDDO-Me-induced apoptosis. Additionally, CDDO-Me increased the levels of Bip, phosphorylated eukaryotic translation initiation factor 2alpha, inositol requiring kinase 1alpha, and activating transcription factor 4, all of which are featured changes during endoplasmic reticulum (ER) stress. Furthermore, salubrinal, an inhibitor of ER stress-induced apoptosis, inhibited JNK activation and up-regulation of CHOP and DR5 by CDDO-Me and protected cells from CDDO-Me-induced apoptosis. Thus, ER stress seems to be important for CDDO-Me-induced JNK activation, CHOP and DR5 up-regulation, and apoptosis. Collectively, we conclude that CDDO-Me triggers ER stress, leading to JNK-dependent, CHOP-mediated DR5 up-regulation and apoptosis.
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PMID:Coupling of endoplasmic reticulum stress to CDDO-Me-induced up-regulation of death receptor 5 via a CHOP-dependent mechanism involving JNK activation. 1879 36


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