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)

c-Fos is a major component of the transcription factor AP-1 which has been implicated in the control of cell proliferation and differentiation as well as in transformation. In order to identify Fos target genes involved in these processes, we have taken advantage of the regulatory properties of the hormone-binding domain of the human estrogen receptor to develop transcriptional and post-translational induction systems, both of which allow selective elevation of Fos activity within a cell. Using this approach we have searched for Fos-responsive genes in rat fibroblasts and PC12 cells. Here we describe the identification and regulation of five Fos-responsive genes encoding a transcription factor (Fra-1), a secreted protein (Fit-1), a biosynthetic enzyme (ODC) and two membrane-associated proteins (annexin II and V), respectively. The post-translational induction system was also used to study the Fos-mediated block of neuronal differentiation of PC12 cells. These experiments demonstrate that Fos activity is dominant over NGF function and interferes with the expression of late NGF-inducible genes.
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PMID:Identification of Fos target genes by the use of selective induction systems. 129 55

Chemically and electrically induced seizures elicit the rapid transcriptional activation in neurons of a class of genes referred to as cellular immediate-early genes. Since the products of these genes include transcription factors and cytokines, they are proposed to be involved in coupling neuronal excitation to a complex, and poorly understood, programme of cellular responses that involves the regulation of gene expression. Products of two cellular immediate-early genes, c-fos and c-jun, are components of the transcription factor AP-1. In this review, Jim Morgan and Tom Curran discuss how these gene products have begun to reveal some of the molecular details of stimulus-transcription coupling in the nervous system following seizures. In addition, these genes have provided novel reagents and concepts for investigating the biochemical and cellular sequelae of seizure in the CNS, and point towards new avenues of research and potential therapeutic targets in epilepsy.
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PMID:Proto-oncogene transcription factors and epilepsy. 194 3

Seizure causes a rapid and protracted increase in transcription factor AP-1 levels in the brain. The composition of AP-1 nucleoprotein complexes changes with time after seizure as a result of the sequential appearance and disappearance of Fos and several Fos-related proteins. Although these changes occur over an 8 hr time period, they are triggered by 15 min of seizure. Alterations in the levels and composition of transcription factors may represent one of the molecular mechanisms underlying neuronal adaptation.
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PMID:Dynamic alterations occur in the levels and composition of transcription factor AP-1 complexes after seizure. 251 70

Previous work has shown that c-Fos and several Fos-like proteins or Fras (Fos-related antigens) are induced acutely in brain in response to a wide variety of stimuli. In contrast, several stimuli induce apparently distinct Fos-like proteins, termed chronic Fras, after chronic administration. We show that delta FosB, a truncated splice variant of FosB, responds like the other acute Fras: it is induced rapidly and transiently in cerebral cortex after acute electroconvulsive seizure (ECS) and in striatum after acute cocaine but does not accumulate after chronic ECS or cocaine treatment. Although the chronic Fras are immunochemically related to delta FosB, they can be distinguished from delta FosB based on their temporal properties in that they are induced after chronic ECS and cocaine treatments only. Moreover, the chronic Fras and delta FosB can be distinguished by their migration patterns on one- and two-dimensional gel electrophoresis. The chronic Fras, therefore, appear to be novel FosB-related proteins. We also provide evidence that the chronic Fras heterodimerize primarily with Jun-D and Jun-B, as opposed to c-Jun. The possibility that AP-1 complexes containing the chronic Fras function as negative regulators of AP-1 mediated transcription is discussed.
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PMID:Regulation of delta FosB and FosB-like proteins by electroconvulsive seizure and cocaine treatments. 747 19

The recombinant inbred mouse strain, SWXL-4, exhibits tonic-clonic and generalized seizures similar to the commonest epilepsies in humans. In SWXL-4 animals, seizures are observed following routine handling at about 80 days of age and may be induced as early as 55 days by rhythmic gentle tossing. Seizures are accompanied by rapid, bilateral high frequency spike cortical discharges and followed by a quiescent post-ictal phase. Immunohistochemistry of the immediate early gene products c-Fos and c-Jun revealed abnormal activation within cortical and limbic structures. The seizure phenotype of SWXL-4 can be explained and replicated fully by the inheritance of susceptibility alleles from its progenitor strains, SWR/J and C57L/J. Outcrosses of SWXL-4 with most other common inbred strains result in F1 hybrids that have seizure at least as frequently as SWXL-4 itself. Quantitative trait locus mapping reveals a seizure frequency determinant, Szf1, near the pink-eyed dilution locus on chromosome 7, accounting for up to 32% of the genetic variance in an F2 intercross between SWXL-4 and the linkage testing strain ABP/Le. These studies demonstrate that common strains of mice such as SWR and C57L contain latent epilepsy susceptibility alleles. Although the inheritance of susceptibility may be complex, these results imply that a number of potentially important and practical, noninvasive models for this disorder can be constructed and studied in crosses between common mouse strains.
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PMID:Genetic epilepsy model derived from common inbred mouse strains. 782 29

A unilateral hypoxia-ischaemia (HI) 21-day-old rat preparation was used to assess the effects of HI on the expression of the immediate-early gene proteins (IEGPs) c-Fos/FRAs, Fos B, c-Jun, Jun B, Jun D, Krox 20, Krox 24, and on the mRNA for the neurotrophic factor, brain-derived neurotrophic factor (BDNF). Moderate HI (15 min hypoxia) produced delayed, selective neuronal death and was associated with a rapid induction of c-Fos, Fos B, Jun B, Jun D, and c-Jun proteins, but not Krox 20 protein or BDNF mRNA, in neurons on the side of HI and also a delayed expression of c-Jun (and to a lesser extent c-Fos/FRA's and Fos B) 24-48 h after HI in neurons that underwent delayed neuronal death. Krox 24 showed an initial induction followed by a long-lasting suppression of its expression in regions undergoing cell loss. Severe HI (60 min hypoxia) resulted in seizures and rapid neuronal loss and infarction (necrotic cell death) on the side of HI, and was associated with early induction of c-Fos, Fos B, c-Jun, Jun B, Jun D, Krox 20 and Krox 24 protein and BDNF mRNA in neurons on the non-ligated side of the brain. Fos, c-Jun, Jun B, Jun D and Krox 24, but not Krox 20, Fos B, or BDNF mRNA, were also induced in non-nerve cells on the damaged side of the brain after both moderate and severe HI, and many of these cells appeared to be dividing. Thus, moderate HI induces IEGP's in neurons and non-nerve cells in damaged regions, whereas severe HI induces IEGP's and BDNF in non-damaged regions. c-Jun (and to a lesser extent c-Fos/FRA's) showed a prolonged expression in neurons undergoing delayed, but not necrotic, cell death suggesting that they may be involved in the biochemical cascade that causes selective delayed neuronal death. BDNF was not induced by HI, and therefore, does not appear to play an endogenous neuroprotective role in the CNS.
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PMID:Immediate-early gene protein expression in neurons undergoing delayed death, but not necrosis, following hypoxic-ischaemic injury to the young rat brain. 798 48

Fos, jun and krox belong to multigene families coding for transcription factors. These cellular immediate early genes (IEGs) are thought to be involved in coupling neuronal excitation to changes of target gene expression. Immunocytochemistry with specific antisera was used to assess regional levels of six IEG-encoded proteins (c-Fos, Fos B, Krox-24, c-Jun, Jun B, Jun D) in the rat forebrain after kainic acid-induced limbic seizures. The results demonstrate a complex spatial pattern of IEG induction and/or suppression in limbic and non-limbic structures. The sequence of induction within hippocampal subpopulations was identical for all IEGs investigated, following the order dentate gyrus, CA1 and CA3, and irrespective of different temporal profiles for individual transcription factors. Since Fos and Jun proteins act via homo- and heterodimer complexes at specific DNA sites, our data imply that the postictal combinatorial changes of these dimers allow a sequential and differential regulation of target gene expression in specific forebrain regions. Pretreatment with the non-competitive NMDA receptor antagonist MK-801 did not affect kainate-induced expression of IEGs in the limbic system, indicating that IEG induction in these regions is mediated by high-affinity kainate and AMPA receptors rather than NMDA receptors. In contrast, MK-801 abolished IEG induction in the somatosensory cortex and striatum, suggesting that IEG expression in non-limbic neurons occurs transsynaptically and is mediated by NMDA receptors.
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PMID:Spatiotemporal induction of immediate early genes in the rat brain after limbic seizures: effects of NMDA receptor antagonist MK-801. 828 3

The influence of glucocorticoids on the transcription factor NFkB was investigated by using the gel mobility shift assay with nuclear extracts prepared from rat cerebral cortex and hippocampus after a variety of in vivo treatments. Following stimulation with each of three treatments, kainate, pilocarpine, or lithium plus pilocarpine-induced seizures, NFkB DNA binding activity was significantly greater in the cortex and hippocampus from adrenalectomized than from adrenal-intact rats. These results indicate that in rat brain glucocorticoids inhibit NFkB activity in addition to the previously reported inhibition of the transcription factor AP-1 (activator protein 1). Impairment of stimulus-induced transcription factor activity may contribute to the deleterious effects of prolonged elevations of glucocorticoids on neuronal function.
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PMID:Inhibition of NFkB DNA binding activity by glucocorticoids in rat brain. 857 92

The dopamine receptor antagonist, haloperidol, produced a time-dependent differential induction of inducible transcription factors (ITFs) in rat striatal neurons: Fos, Fos B, Jun B, Jun D, Krox 20, and Krox 24, but not c-Jun, were induced in the caudate putamen and nucleus accumbens with varying time courses. The induction of Fos by haloperidol was stronger in anterior versus posterior regions of the striatum. In contrast, induction of Fos by the muscarinic agonist pilocarpine was stronger in the posterior regions of the striatum suggesting that muscarinic receptors do not play a role in the induction of ITFs in striatal neurons by haloperidol. Although c-Jun was not induced in caudate neurons by haloperidol it was strongly induced in these neurons following prolonged seizure activity. The differential pattern of Jun protein expression suggests that haloperidol induces a specific transcriptional program in basal ganglia neurons. These effects of haloperidol may be involved in producing its extrapyramidal side effects.
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PMID:Differential expression of inducible transcription factors in basal ganglia neurons. 875 Aug 32

Several studies have shown that dextromethorphan (DM) has both anticonvulsant and proconvulsant effects depending on the animal model. In this study, we examined the effects of DM on three parameters associated with kainic acid (KA)-induced seizures: cell loss in the hippocampus, increased AP-1 DNA binding activity and increased c-Jun and fos-related antigen (FRA) expression. KA administration (8 mg/kg, ip) produced robust behavioral convulsions lasting 4-6 hr. Pretreatment with DM (12.5-75 mg/kg, po) 15 min before KA injections reduced the seizures as well as mortality in a dose-dependent manner. Histological studies revealed a severe loss of cells in the CA1 and CA3 fields of the hippocampus in KA-treated rats. DM pretreatment also reduced this cell loss in a dose-dependent fashion. Biochemical studies showed that DM pretreatment also attenuated the KA-induced increase of AP-1 binding activity and c-Jun/FRA expression in the hippocampus. These results indicate that DM is an effective antagonist of KA.
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PMID:The effects of dextromethorphan on kainic acid-induced seizures in the rat. 885 34

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