UNIPROT:P05412 - FACTA Search

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

Study of GSK-3 had an inauspicious beginning rooted in intermediary metabolism. However, owing to the fortuitous convergence of several disparate areas of biology, the enzyme now offers unique opportunities for study of the control of a variety cellular processes. While at first sight a role in transcriptional regulation appears unlikely for a protein first identified as acting on glycogen synthase, it is even more surprising that the same protein should be functionally interchangeable with a fruit fly homeotic gene. Such understandable scepticism, however, is based on teleological bias. Glycogen synthase is a critical enzyme regulating glucose storage. The c-Jun oncoprotein may have the potential to transform cells but this does not excuse it from similar mechanisms of control to glycogen synthase. Likewise, homeotic genes play a crucial role in setting up the body plan of an embryo but must also be subject to control. The main difference is that when such control is lost, the result is rather graphic. It is, therefore, only to be expected that regulatory protein kinases will surface in superficially quite unrelated areas and that many of their targets will be 'housekeeping' proteins. Perhaps the most difficult aspect of protein phosphorylation research is the linking of physiological substrates with particular protein kinases, hence reconstructing pathways. No matter how compelling in vitro data appear, there must be demonstration that the protein is targeted by the specific protein kinase in cells, an extremely difficult process. Most progress in this respect has been made using genetic analysis in lower organisms, especially yeast. Here another problem arises: demonstration of biochemical linkages underlying genetic interactions which requires function to be ascribed to genes identified by a gross effect. The challenge is to co-ordinate these two approaches, a strategy currently being employed to further unravel the biological role of GSK-3.
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PMID:Glycogen synthase kinase-3: functions in oncogenesis and development. 133 7

Hypoxic stress in tumor cells has been implicated in malignant progression and in the development of therapeutic resistance. We have investigated the effects of acute hypoxic exposure on regulation of the proto-oncogene c-jun in SiHa cells, a human squamous carcinoma cell line. Hypoxic exposure produced increased levels of c-jun mRNA resulting from both message stabilization and transcriptional activation. A superinduction of c-jun message resulted during simultaneous oxygen and glucose deprivation, with several characteristics of an induction mediated by oxidative-stress pathways. This superinduction was blocked by preincubation of cells with the glutathione precursor N-acetyl cysteine or with phorbol 12-myristate 13-acetate, which indicates redox control of c-jun expression and probable involvement of protein kinase C. By gel retardation assay, no increase in AP-1 DNA binding activity was found to be concomitant with the transcriptional activation of c-jun. A lack of increased DNA binding was observed for the consensus AP-1 sequence and for the two AP-1 sequence variants found within the c-Jun promoter. Additionally, hypoxic and low-glucose stress produced no activation of stably transfected AP-1 reporter sequences. Taken together, these results indicate that the transcriptional activation of c-jun during hypoxic and low-glucose stress involves redox control and is unlikely to be mediated by AP-1 recognition elements within the c-jun promoter.
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PMID:Regulation of c-jun expression during hypoxic and low-glucose stress. 803 87

We studied the signal transduction mechanism that is involved in c-Jun phosphorylation evident after glucose deprivation in MCF-7/ADR cells. Glucose deprivation caused an immediate increase in tyrosine phosphorylation in MCF-7/ADR cells and specifically activated Lyn kinase, a src family tyrosine kinase. In addition, hypoglycemic treatment strongly activated c-Jun N-terminal kinase 1 (JNK1), leading to the phosphorylation and activation of c-Jun. Experiments with Lyn antisense oligonucleotides demonstrated that Lyn kinase activation was responsible for the activation of JNK1 but not extracellular signal-regulated kinase. We also observed glucose deprivation-induced Ras activation in MCF-7/ADR cells. These results indicate a possible Ras-dependent signaling pathway involving Lyn kinase and JNK1, which leads to the glucose deprivation-induced responses in MCF-7/ADR cells.
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PMID:Hypoglycemia-induced c-Jun phosphorylation is mediated by c-Jun N-terminal kinase 1 and Lyn kinase in drug-resistant human breast carcinoma MCF-7/ADR cells. 911 18

In the insulinoma cell line INS-1, a model system for glucose-regulated insulin secretion, the mitogen-activating protein (MAP) kinases/extracellular signal-regulated protein kinases, ERK1 and ERK2 are activated up to 15-fold by physiological concentrations of glucose, in the range of 3-12 mM. The related MAP kinase family members, the c-Jun-N-terminal kinases/stress-activated protein kinases are insensitive to glucose, while the p38 MAP kinase is slightly glucose responsive (1.5-fold). ERK activation is dependent on glucose metabolism and the subsequent increase in calcium influx. Inhibiting activation of ERK1 and ERK2 with the MEK1/2 inhibitor PD98059 has no effect on insulin secretion, indicating that ERK activity is not necessary for secretion under these conditions. Glucose activates ERK1 and ERK2 in cytosolic and purified nuclear fractions of INS-1 cells and more of each is found in nuclei from glucose-treated cells. These findings suggest that some of the glucose-dependent actions of ERKs will be exerted in the nucleus.
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PMID:Activation of mitogen-activating protein kinase by glucose is not required for insulin secretion. 915 18

Dissociated cerebellar granule cells maintained in medium containing 25 mM potassium undergo an apoptotic death when switched to medium with 5 mM potassium. Granule cells from mice in which Bax, a proapoptotic Bcl-2 family member, had been deleted, did not undergo apoptosis in 5 mM potassium, yet did undergo an excitotoxic cell death in response to stimulation with 30 or 100 microM NMDA. Within 2 h after switching to 5 mM K+, both wild-type and Bax-deficient granule cells decreased glucose uptake to <20% of control. Protein synthesis also decreased rapidly in both wild-type and Bax-deficient granule cells to 50% of control within 12 h after switching to 5 mM potassium. Both wild-type and Bax -/- neurons increased mRNA levels of c-jun, and caspase 3 (CPP32) and increased phosphorylation of the transactivation domain of c-Jun after K+ deprivation. Wild-type granule cells in 5 mM K+ increased cleavage of DEVD-aminomethylcoumarin (DEVD-AMC), a fluorogenic substrate for caspases 2, 3, and 7; in contrast, Bax-deficient granule cells did not cleave DEVD-AMC. These results place BAX downstream of metabolic changes, changes in mRNA levels, and increased phosphorylation of c-Jun, yet upstream of the activation of caspases and indicate that BAX is required for apoptotic, but not excitotoxic, cell death. In wild-type cells, Boc-Asp-FMK and ZVAD-FMK, general inhibitors of caspases, blocked cleavage of DEVD-AMC and blocked the increase in TdT-mediated dUTP nick end labeling (TUNEL) positivity. However, these inhibitors had only a marginal effect on preventing cell death, suggesting a caspase-independent death pathway downstream of BAX in cerebellar granule cells.
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PMID:Bax deletion further orders the cell death pathway in cerebellar granule cells and suggests a caspase-independent pathway to cell death. 931 40

During development, sympathetic neurons are critically dependent on nerve growth factor (NGF) for survival. Neurons isolated from the superior cervical ganglia (SCG) of embryonic rodents and maintained for 1 week in vitro undergo programmed cell death in response to NGF deprivation. As the cells mature in vitro and in vivo, however, these neurons develop a resistance to NGF deprivation and become much less acutely dependent on NGF for survival. Using an in vitro model of neuronal maturation, we confirmed that SCG neurons maintained in culture for 3-4 weeks did not experience a dramatic loss in viability after NGF removal, yet they did undergo the initial biochemical and genetic changes elicited by NGF deprivation of young neurons. NGF deprivation of mature neurons produced rapid decreases in glucose uptake and protein and RNA synthesis rates, increased phosphorylation of c-Jun, and an increase in c-jun mRNA. Mature neurons, however, experienced a block in the cell death program before the final stages of the pathway activated in young neurons, which includes the induction of c-fos mRNA and characteristic apoptotic nuclear changes. This maturation-induced block was indistinguishable by these criteria from the block produced by Bax deficiency. Expression of Bax in mature neurons restored the apoptotic pathway, such that after NGF removal, Bax-overexpressing mature neurons resumed the apoptotic program, including the induction of c-Fos and passage through a caspase checkpoint. Thus, a block in the apoptotic program at or near the BAX checkpoint accounts for the decreased dependence of mature neurons on neurotrophic factor to maintain survival.
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PMID:Analysis of the mechanism of loss of trophic factor dependence associated with neuronal maturation: a phenotype indistinguishable from Bax deletion. 939 Oct 20

The ability of signaling via the JNK (c-Jun NH2-terminal kinase)/stress-activated protein kinase cascade to stimulate or inhibit DNA synthesis in primary cultures of adult rat hepatocytes was examined. Treatment of hepatocytes with media containing hyperosmotic glucose (75 mM final), tumor necrosis factor alpha (TNFalpha, 1 ng/ml final), and hepatocyte growth factor (HGF, 1 ng/ml final) caused activation of JNK1. Glucose, TNFalpha, or HGF treatments increased phosphorylation of c-Jun at serine 63 in the transactivation domain and stimulated hepatocyte DNA synthesis. Infection of hepatocytes with poly-L-lysine-coated adenoviruses coupled to constructs to express either dominant negatives Ras N17, Rac1 (N17), Cdc42 (N17), SEK1-, or JNK1- blunted the abilities of glucose, TNFalpha, or HGF to increase JNK1 activity, to increase phosphorylation of c-Jun at serine 63, and to stimulate DNA synthesis. Furthermore, infection of hepatocytes by a recombinant adenovirus expressing a dominant-negative c-Jun mutant (TAM67) also blunted the abilities of glucose, TNFalpha, and HGF to stimulate DNA synthesis. These data demonstrate that multiple agonists stimulate DNA synthesis in primary cultures of hepatocytes via a Ras/Rac1/Cdc42/SEK/JNK/c-Jun pathway. Glucose and HGF treatments reduced glycogen synthase kinase 3 (GSK3) activity and increased c-Jun DNA binding. Co-infection of hepatocytes with recombinant adenoviruses to express dominant- negative forms of PI3 kinase (p110alpha/p110gamma) increased basal GSK3 activity, blocked the abilities of glucose and HGF treatments to inhibit GSK3 activity, and reduced basal c-Jun DNA binding. However, expression of dominant-negative PI3 kinase (p110alpha/p110gamma) neither significantly blunted the abilities of glucose and HGF treatments to increase c-Jun DNA binding, nor inhibited the ability of these agonists to stimulate DNA synthesis. These data suggest that signaling by the JNK/stress-activated protein kinase cascade, rather than by the PI3 kinase cascade, plays the pivotal role in the ability of agonists to stimulate DNA synthesis in primary cultures of rat hepatocytes.
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PMID:The Ras/Rac1/Cdc42/SEK/JNK/c-Jun cascade is a key pathway by which agonists stimulate DNA synthesis in primary cultures of rat hepatocytes. 948 26

Interleukin-1beta (IL-1beta) is cytotoxic to rat pancreatic beta-cells by inhibiting glucose oxidation, causing DNA damage and inducing apoptosis. Nitric oxide (NO) is a necessary but not sufficient mediator of these effects. IL-1beta induced kinase activity toward Elk-1, activation transcription factor 2, c-Jun, and heat shock protein 25 in rat islets. By Western blotting with phosphospecific antibodies and by immunocomplex kinase assay, IL-1beta was shown to activate extracellular signal-regulated kinase (ERK) 1/2 and p38 mitogen-activated protein kinase (p38) in islets and rat insulinoma cells. Specific ERK1/2 and p38 inhibitors individually reduced but in combination blocked IL-1beta-mediated islet NO synthesis, and reverse transcription-polymerase chain reaction of inducible NO synthase mRNA showed that ERK1/2 and p38 controlled IL-1beta-induced islet inducible NO synthase expression at the transcriptional level. Hyperosmolarity caused phosphorylation of Elk-1, activation transcription factor 2, and heat shock protein 25 and activation of ERK1/2 and p38 in islets comparable to that induced by IL-1beta but did not lead to NO synthesis. Inhibition of p38 but not of ERK1/2 attenuated IL-1beta-mediated inhibition of glucose-stimulated insulin release. We conclude that ERK1/2 and p38 activation is necessary but not sufficient for IL-1beta-mediated beta-cell NO synthesis and that p38 is involved in signaling of NO-independent effects of IL-1beta in beta-cells.
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PMID:Interleukin-1beta-induced rat pancreatic islet nitric oxide synthesis requires both the p38 and extracellular signal-regulated kinase 1/2 mitogen-activated protein kinases. 961 46

The BCL2 family member BAX is required for the induction of apoptosis in neonatal sympathetic neurons after NGF withdrawal. Bax-deficient sympathetic neurons are NGF-independent for survival. To characterize the physiological state of neurons protected by BAX deficiency and to place BAX within the death pathway, we determine which of the molecular changes induced by NGF deprivation depend on BAX and compare the results with those for neurons protected by caspase inhibition. We find that neurons deficient in both Bax and Bcl2 resist NGF-deprivation similar to Bax-deficient neurons discounting a role for BCL2 in the mechanism by which Bax deficiency causes trophic factor independence. We identify two new molecular changes, phosphorylation of c-Jun on Ser63 and alpha-spectrin proteolysis, which precede and accompany apoptosis, respectively. Early reversible changes induced by NGF withdrawal, such as decreased protein synthesis and glucose uptake, increased c-Jun phosphorylation, increased steady state c-jun mRNA levels, and cellular atrophy, occur both in wild type and Bax-deficient neurons and thus are BAX-independent. In contrast to neurons protected by caspase inhibition, no c-fos induction occurs in Bax-deficient neurons. Terminal irreversible events of apoptosis such as caspase-mediated alpha-spectrin proteolysis are prevented by both Bax-deficiency and caspase inhibition. This places BAX downstream or in a different pathway of the early changes and upstream of the terminal events such as those leading to c-fos induction and caspase activation. This order indicates that the physiological state of NGF-deprived neurons protected by Bax deficiency may be less perturbed than that of caspase inhibitor-saved neurons.
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PMID:Placement of the BCL2 family member BAX in the death pathway of sympathetic neurons activated by trophic factor deprivation. 968 22

In previous reports we demonstrated that glucose deprivation induces metabolic oxidative stress in drug-resistant human breast carcinoma MCF-7/ADR cells (Lee, Y. J., Galoforo, S. S., Berns, c. M., Chen, J. C., Davis, B. H., Swim, J. E., Corry, P. M., and Spitz, D. R. (1998) J. Biol. Chem. 273, 5294-5299). In the study described here, we investigated intracellular responses to metabolic oxidative stress. Northern blots show an increase in the level of HSP70 and HSP28 mRNA in cells exposed to glucose-free medium for 1 h. One- and two-dimensional polyacrylamide gel analyses confirmed that glucose deprivation induced a family of HSPs, particularly an inducible HSP70. Overexpression of bcl-2 suppressed glucose deprivation-induced HSP70 gene expression, heat shock transcription factor-heat shock element binding activity, as well as c-Jun NH2-terminal kinase (JNK1) activation. Expression of a dominant-negative mutant of JNK1 also suppressed glucose deprivation-induced JNK1 activation as well as HSP70 gene expression. Taken together, the stress-activated protein kinase signal transduction pathway is involved in glucose deprivation-induced heat shock gene expression.
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PMID:Metabolic oxidative stress-induced HSP70 gene expression is mediated through SAPK pathway. Role of Bcl-2 and c-Jun NH2-terminal kinase. 979 2

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