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)

Okadaic acid (OA) is a novel, non-phorbol ester-type tumor promoter, which is a specific inhibitor of protein phosphatases 1 and 2A. Treatment of human fibrosarcoma HT-1080 cells with OA resulted in induction of collagenase and stromelysin-1 mRNA levels, while mRNA levels for tissue inhibitor of metalloproteinases-1 were enhanced to a lesser extent. Induction of collagenase and stromelysin-1 mRNA levels was dependent on protein synthesis. Exposure of HT-1080 cells to OA resulted in marked and persistent induction of junB, junD, and c-fos mRNA levels up to 24 h, while c-jun mRNA levels were only slightly elevated. In transiently transfected HT-1080 cells, OA-elicited activation of a 3.8-kilobase collagenase promoter/reporter gene construct was entirely dependent on junB expression, as determined by cotransfection with a junB antisense expression construct. Overexpression of JunB in HT-1080 cells enhanced collagenase promoter activity by 10-fold, and OA augmented trans-activation of collagenase promoter by c-Jun and JunB. The results indicate that induction of collagenase gene expression by OA is mediated by enhanced JunB expression, as well as enhanced trans-activating capacity of AP-1 complexes containing c-Jun and JunB. These results also suggest that selective overexpression of junB may enhance invasive and metastatic potential of neoplastic cells.
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PMID:Okadaic acid-elicited transcriptional activation of collagenase gene expression in HT-1080 fibrosarcoma cells is mediated by JunB. 784 22

Oncogenic activation of the human c-raf-1 protein (Raf-1) occurs by truncation of its aminoterminus (regulatory domain) and retention of the carboxyterminus (kinase domain). To gain insight into the structure of human raf-1 genomic DNA corresponding to the regulatory domain of Raf-1, we analyzed the nucleotide sequences of introns 4, 8, and 9. Very high frequencies of the direct and indirect repeats, and A/T nucleotides were observed within introns 4, 8, and 9; and the DNA sequences, 5'-TTAGTCA-3' and 5'-TGATTCA-3', like the DNA recognition site of transcription factor AP-1, were identified within intron 4 of raf-1 in human normal and tumor DNAs. In addition, several transcriptional elements (CAAT box, TATA sequences, eukaryotic transcription initiation sites, and cellular transcriptional elements) were found within introns 4, 8, and 9 of human raf-1. These data suggest: 1) the high frequency of intron-specific repeats is a possible recombinational mechanism for derivation of truncated oncogenic forms of Raf-1; and 2) the multiple transcriptional elements within introns 4, 8, and 9 may have important implications in the regulation of raf-1 transcription and, therefore, its role in cell growth and proliferation.
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PMID:Identification of multiple repeat sequences and transcription-related elements within introns 4, 8 and 9 of human Raf-1. 791 95

Polyomavirus middle-sized tumor antigen (MT) increases the expression of c-jun through a phorbol 12-O-tetradecanoate 13-acetate response element in the c-jun promoter. To investigate the cellular signaling pathways affected by MT, we studied the role of the c-Ras and Raf-1 proteins in MT-induced transactivation of c-jun and cell transformation. There was an increase in GTP complexed to Ras in MT-expressing cells, indicating an increase in Ras activity. Coexpression of dominant inhibitory mutants of Ha-ras and raf-1 with MT inhibited MT-mediated transactivation and focus formation. Studies of the phosphorylation of c-Jun showed that MT expression increased the phosphorylation of Ser-63 and Ser-73 in the transactivation domain and decreased the phosphorylation of a peptide containing Ser-243, Ser-249, and Thr-231 in the DNA binding domain. MT increased the transcriptional activating ability of c-Jun but failed to increase the transcriptional activating ability of c-Jun mutants with Ser-63 and Ser-73 changed to nonphosphorylatable Ala, indicating that MT modulates c-Jun activity through phosphorylation. The dominant inhibitory mutants of Ha-ras and raf-1 interfered with the ability of MT to activate c-Jun. The results indicate that MT induces a phosphorylation cascade through the activation of c-Ras and Raf-1 and that c-Jun is one of the downstream targets that may cause changes in gene expression leading to cell transformation.
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PMID:Polyomavirus middle-sized tumor antigen modulates c-Jun phosphorylation and transcriptional activity. 793 38

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

v-jun is the transforming gene of ASV 17, a retrovirus isolated from a spontaneous chicken fibrosarcoma. There are three mutations in the viral Jun protein (v-Jun) as compared to its cellular progenitor c-Jun: a deletion in the transactivation domain (called delta) and two amino acid substitutions in and near the DNA binding region. The effect of each of these mutations on fibrosarcoma development is described. All three mutations contribute towards tumor formation, and their cumulative effect makes v-Jun more tumorigenic compared to Jun proteins that carry only one or two of the mutations. Viruses rescued from tumors induced by c-Jun carrying the two amino acid substitutions in the DNA binding region have increased transforming and tumorigenic potential. These increases are probably due to further mutations that result in the expression of a rearranged Jun protein. Taken together the results show that the evolution of the c-Jun oncoprotein to an efficient carcinogen requires mutations in the transactivation and DNA binding regions.
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PMID:Efficient induction of fibrosarcomas by v-jun requires mutations in the DNA binding region and the transactivation domain. 808 84

The ultraviolet (UV) response of mammalian cells is characterized by a rapid and selective increase in gene expression mediated by AP-1 and NF-kappa B. The effect on AP-1 transcriptional activity results, in part, from enhanced phosphorylation of the c-Jun NH2-terminal activation domain. Here, we describe the molecular cloning and characterization of JNK1, a distant relative of the MAP kinase group that is activated by dual phosphorylation at Thr and Tyr during the UV response. Significantly, Ha-Ras partially activates JNK1 and potentiates the activation caused by UV. JNK1 binds to the c-Jun transactivation domain and phosphorylates it on Ser-63 and Ser-73. Thus, JNK1 is a component of a novel signal transduction pathway that is activated by oncoproteins and UV irradiation. These properties indicate that JNK1 activation may play an important role in tumor promotion.
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PMID:JNK1: a protein kinase stimulated by UV light and Ha-Ras that binds and phosphorylates the c-Jun activation domain. 813 21

The JB6 mouse epidermal cell system has been extensively used as an in vitro model for the study of tumor promotion. The present study aimed to assess the relevance of monolayer measurements to the process of transformation, which is induced more efficiently under anchorage-independent (AI) conditions. Although it would be ideal to use identical conditions for studying tumor promoter-induced transformation and biochemical and molecular events that may cause the process, it is not feasible in the case of soft agar conditions because cells cannot be readily recovered. In the present report, we used liquid medium over agar as an AI condition that permitted efficient recovery of cells. Responses to tumor promoter have been compared with those in monolayer and semisolid agar. Results indicate that 12-O-tetradecanoyl-phorbol-13-acetate (TPA) induced similar magnitude concentration-dependent transformation of JB6 cells under both of the AI conditions, namely soft agar and over-agar. Under anchorage-dependent (AD) conditions of exposure to TPA, the transformation efficiency was much lower than that seen under AI conditions. Mechanical detachment of monolayer cells after 5-10 days TPA exposure enriched the transformed phenotype. Activator protein 1 transcriptional activity measured at 12 h was induced equally under AD and AI conditions, and thus is not an early limiting event that could explain the lower transformation efficiency seen under AD conditions. To summarize, the over-agar and monolayer assays described in this study can be considered valid for the study of early biochemical and molecular events relevant to the promotion of transformation measured in soft agar.
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PMID:Differential transformation efficiency but not AP-1 induction under anchorage-dependent and -independent conditions. 820 60

Jun and Fos are major components of the transcriptional complex AP-1 (Activator Protein-1), a collection of dimeric transcriptional activators composed of members of the Jun and Fos family of bZIP proteins, that bind to a common site known as TRE (TPA Responsive Element) or the AP-1 site. Transcription of c-jun is rapidly induced by exposure to different extra-cellular signals like growth factors, cytokines, tumor promoters (TPA), UV and other DNA-damaging agents. Transcriptional activation of c-jun is a two step mechanism. First, the pre-existing c-Jun protein is activated by posttranscriptional modifications, and second, modified c-Jun activates its own transcription, and the expression of AP-1-dependent genes. Modifications of c-Jun include dephosphorylations, phosphorylations and oxydo-reduction. The transcriptional activation by c-Jun is modulated by heterodimerization with other members of the bZIP family of proteins, and by transcriptional interference with other transcription factors like some members of the hormone nuclear receptors, or MyoD. AP-1 is tightly associated to both the control of cell proliferation and the oncogenic process. Constitutive activation of AP-1 leads to cell transformation in vitro, probably due to the accumulation of homodimeric c-Jun:c-Jun complexes. This hypothesis has been directly confirmed by constructing c-Jun hybrid proteins capable to form only homodimers. Deregulated expression of such proteins efficiently transforms primary cells in culture. These hybrid proteins constitute a powerful tool in order to identify new cellular functions AP-1-dependent, involved in the control of cell proliferation.
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PMID:[The C-Jun oncoprotein]. 820 56

Integrated hepatitis B virus DNA cloned from hepatitis B virus-associated hepatocellular carcinoma frequently contains 3'-truncated middle surface genes (preS2/St), which were recently found to have a transcriptional transactivator function. Because preS2/St, among others, is able to transactivate the promoters of the cellular oncogenes c-myc and c-fos, it has been speculated that integrated preS2/St genes might contribute to hepatitis B virus-associated liver carcinogenesis. In this study, we investigated the mechanism of target gene stimulation by preS2/St. It was found that deletion of a fragment containing the binding site for transcription factor AP-1 (Jun-Fos) substantially decreases inducibility of the human c-myc promoter by preS2/St. A subsequent investigation of AP-1 activation by preS2/St revealed the following: (a) insertion of multimeric AP-1 binding sites confers inducibility to an otherwise unstimulatable test promoter; (b) transactivation of AP-1 sites is dramatically increased when Jun and Fos are overexpressed by cotransfected expression plasmids; and (c) inhibitors of AP-1 activation also impair transactivation by preS2/St. Besides AP-1, preS2/St was also able to utilize the unrelated transcription factors NF-kappa B and AP-2 for transactivation, suggesting that the gene product of preS2/St acts indirectly through one or several general cellular pathways rather than as a bona fide transcription factor. Because AP-1 conveys induction of a large panel of tumor-relevant genes, its preS2/St-dependent activation implies a possible causative role in hepatitis B virus-associated hepatocarcinogenesis.
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PMID:The hepatitis B virus preS2/St transactivator utilizes AP-1 and other transcription factors for transactivation. 827 60

We have previously shown that the tumor promoter okadaic acid (OA), an inhibitor of protein phosphatases 1 and 2A, transcriptionally induces the urokinase-type plasminogen activator (uPA) gene in LLC-PK1 cells. This induction occurs independently of the protein kinase C- and cAMP-dependent signaling pathways. Here we show that a sequence located 2.0 kilobases upstream of the uPA gene, which resembles an AP-1-recognition sequence, mediates the action of OA. DNA-protein interaction studies, together with mRNA and protein analyses, indicate that c-Jun, but not c-Fos, is involved in OA-dependent uPA gene induction. The appearance of high levels of uPA mRNA and DNA binding activity of c-Jun to the AP-1-like site correspond to the appearance of c-Jun accumulation, suggesting that c-Jun accumulation is a critical event in OA-dependent uPA gene induction. c-Jun protein levels increase significantly between 100 and 160 min following OA treatment, whereas c-Jun translation increases only slightly in this time frame, suggesting that post-translation mechanisms are also involved in c-Jun accumulation. Pulse-chase analyses shows that OA specifically stabilizes c-Jun. We discuss our results with respect to the possibility that protein phosphatase 2A maintains c-Jun in its down-regulated state in LLC-PK1 cells.
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PMID:Okadaic acid-dependent induction of the urokinase-type plasminogen activator gene associated with stabilization and autoregulation of c-Jun. 830 Jun 23


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