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)

JunB, a member of the jun gene family of transcription factors, is distinguished from c-Jun by its differential activity on certain arrangements of promoter regulatory elements and the ability of JunB to inhibit the action of cJun in both transforming and trans-activating assays. We have tested the potential negative regulatory role of JunB during the retinoic acid induced differentiation of F9 murine embryonal carcinoma cells. Constitutive expression of high levels of JunB in F9 cells failed to inhibit the differentiation dependent induction of c-Jun or the coincident expression of differentiation markers keratin 8 and 18, tissue plasminogen activator, and laminin B1. Among these marker genes, keratin 18, has been shown to contain an AP-1 binding site, TGA(C/G)TCA, which is essential for high level, differentiation dependent expression and which is transactivated by Jun and Fos proteins. These results suggest that JunB does not play a major negative or positive regulatory role during the retinoic acid induced differentiation of F9 cells.
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PMID:JunB does not inhibit the induction of c-Jun during the retinoic acid induced differentiation of F9 cells. 158 7

Induction of differentiation of F9 teratocarcinoma stem cells by retinoic acid and cAMP has been shown to involve the activation of the transcription factor AP-1 (a heterodimer of the proto-oncogene products c-Fos and c-Jun); moreover, stable expression of either Fos or Jun drives F9 cells into differentiation. Phorbol ester tumor promoters and short-wave-length ultraviolet (uv) irradiation are efficient inducers of AP-1 activity in various differentiated cells, but it has been shown that phorbol esters do not induce AP-1 activity in undifferentiated F9 cells. We examine here whether uv irradiation induces AP-1 activity in these cells and drives F9 cells into differentiation. We show that uv induces, in contrast to phorbol esters, the formation of active AP-1 by activating transcription from the c-jun gene. Ultraviolet-induced AP-1 drives transcription from AP-1-dependent promoters coding for differentiation-associated proteins (such as urokinase and keratin 18). However, in uv-treated cells, these genes are activated earlier and to a greater extent than in cells treated with retinoic acid and cAMP. More importantly, uv, in contrast to retinoic acid and cAMP, does not induce the accumulation of collagen alpha 1 (IV) and laminin B1 RNA. Our data suggest that the c-jun gene in F9 cells is accessible to immediate activation, but that uv-induced AP-1 activation does not suffice to induce the full program of F9 cell differentiation.
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PMID:Ultraviolet irradiation, although it activates the transcription factor AP-1 in F9 teratocarcinoma stem cells, does not induce the full complement of differentiation-associated genes. 752 41

The differentiation of both embryonal carcinoma (EC) and embryonic stem (ES) cells can be triggered in culture by exposure to retinoic acid and results in the transcriptional induction of both the endogenous mouse keratin 18 (mK18) intermediate filament gene and an experimentally introduced human keratin 18 (K18) gene as well as a variety of other markers characteristic of extraembryonic endoderm. The induction of K18 in EC cells is limited, in part, by low levels of ETS and AP-1 transcription factor activities which bind to sites within a complex enhancer element located within the first intron of K18. RNA levels of ETS-2, c-Jun, and JunB increase upon the differentiation of ES cells and correlate with increased expression of K18. Occupancy of the ETS site, detected by in vivo footprinting methods, correlates with K18 induction in ES cells. In somatic cells, the ETS and AP-1 elements mediate induction by a variety of oncogenes associated with the ras signal transduction pathway. In EC cells, in addition to the induction by these limiting transcription factors, relief from negative regulation is mediated by three silencer elements located within the first intron of the K18 gene. These silencer elements function in F9 EC cells but not their differentiated derivatives, and their activity is correlated with proteins in F9 EC nuclei which bind to the silencers and are reduced in the nuclei of differentiated F9 cells. The induction of K18, associated with the differentiation of EC cells to extraembryonic endoderm, is due to a combination of relief from negative regulation and activation by members of the ETS and AP-1 transcription factor families.
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PMID:AP-1, ETS, and transcriptional silencers regulate retinoic acid-dependent induction of keratin 18 in embryonic cells. 752 51

Multiple tissue-specific, DNase-hypersensitive sites are correlated with known or potential regulatory regions of the human keratin 18 (K18) gene. One of these sites is found within exon 6, close to a potential AP-1 binding site. Footprint analysis confirmed that this site is capable of binding c-Jun and c-Fos in vitro. However, exon 6 can stimulate expression of a reporter gene driven by the K18 proximal promoter independent of AP-1 in F9 cells and additionally modulates AP-1 responsiveness when in combination with an intron enhancer. Analysis in transgenic mice and by transient transfections of mutant forms of the K18 gene showed that exon 6 contributes to the expression of the K18 gene. However, substitution of part of exon 6 with the corresponding part of the keratin 19 gene which lacks an AP-1 site decreased but did not destroy the regulatory activity of the exon. Furthermore, this mutation did not alter either the tissue specificity or the position-independent and copy number-dependent behavior of the K18 gene. In contrast, a frameshift mutation within exon 6 dramatically decreased the expression of the gene. K18 RNA expression from the frameshift mutation was less than 10% of the wild type K18 transgene. This decline in expression was the result of a combination of decreased stability of mutant K18 RNA and the creation of a negative regulatory element that can interact with the first intron regulatory elements and actively suppress K18 expression. These results demonstrate that a protein-coding portion of the K18 gene also has a regulatory function.
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PMID:A regulatory element within a coding exon modulates keratin 18 gene expression in transgenic mice. 934 89

Mice lacking the AP-1 transcription factor c-Jun die around embryonic day E13.0 but little is known about the cell types affected as well as the cause of embryonic lethality. Here we show that a fraction of mutant E13.0 fetal livers exhibits extensive apoptosis of both hematopoietic cells and hepatoblasts, whereas the expression of 15 mRNAs, including those of albumin, keratin 18, hepatocyte nuclear factor 1, beta-globin, and erythropoietin, some of which are putative AP-1 target genes, is not affected. Apoptosis of hematopoietic cells in mutant livers is most likely not due to a cell-autonomous defect, since c-jun-/- fetal liver cells are able to reconstitute all hematopoietic compartments of lethally irradiated recipient mice. A developmental analysis of chimeras showed contribution of c-jun-/- ES cell derivatives to fetal, but not to adult livers, suggesting a role of c-Jun in hepatocyte turnover. This is in agreement with the reduced mitotic and increased apoptotic rates found in primary liver cell cultures derived from c-jun-/- fetuses. Furthermore, a novel function for c-Jun was found in heart development. The heart outflow tract of c-jun-/- fetuses show malformations that resemble the human disease of a truncus arteriosus persistens. Therefore, the lethality of c-jun mutant fetuses is most likely due to pleiotropic defects reflecting the diversity of functions of c-Jun in development, such as a role in neural crest cell function, in the maintenance of hepatic hematopoiesis and in the regulation of apoptosis.
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PMID:Functions of c-Jun in liver and heart development. 1035 21

RNA expression data reveals that human embryonic stem (hES) cells differ from mouse ES (mES) cells in the expression of RNAs for keratin intermediate filament proteins. These differences were confirmed at the cellular and protein level and may reflect a fundamental difference in the epithelial nature of embryonic stem cells derived from mouse and human blastocysts. Mouse ES cells express very low levels of the simple epithelial keratins K8, K18 and K19. By contrast hES cells express moderate levels of the RNAs for these intermediate filament proteins as do mouse stem cells derived from the mouse epiblast. Expression of K8 and K18 RNAs are correlated with increased c-Jun RNA expression in both mouse and human ES cell cultures. However, decreasing K8 and K18 expression associated with differentiation to neuronal progenitor cells is correlated with increasing expression of the Snai2 (Slug) transcriptional repression and not decreased Jun expression. Increasing K7 expression is correlated with increased CDX2 and decreased Oct4 RNA expression associated with the formation of trophoblast derivatives by hES cells. Our study supports the view that hES cells are more similar to mouse epiblast cells than mouse ES cells and is consistent with the epithelial nature of hES cells. Keratin intermediate filament expression in hES cells may modulate sensitivity to death receptor mediated apoptosis and stress.
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PMID:Contrasting expression of keratins in mouse and human embryonic stem cells. 1894 37

LTF (lactotransferrin, also known as lactoferrin) is a key component of innate immune defense. It has recently been found to have anti-tumor and anti-metastatic activity in different cancers. We previously reported LTF to be the most significantly downregulated gene in nasopharyngeal carcinoma (NPC) specimens relative to normal nasopharyngeal epithelial tissues, and it was also negatively associated with the progression and metastasis of NPC. However, the mechanism underlying this remains unclear. In the current study, we revealed that LTF can suppress 3-phosphoinositide-dependent protein kinase 1 expression via the mitogen-activated protein kinase/c-Jun pathway and thus repress AKT signaling. We also showed that LTF interacts with keratin 18 (K18) and so blocks the formation of the K18-14-3-3 complex, leading to downregulation of K18-mediated AKT activation. Thus, LTF suppresses AKT signaling by two separate mechanisms, leading to inhibition of NPC tumorigenesis. This is the first report on the tumor suppressive effects of LTF through repression of AKT signaling in NPC. It suggests that both LTF and AKT signaling merit further study in the field of NPC research.
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PMID:Lactotransferrin acts as a tumor suppressor in nasopharyngeal carcinoma by repressing AKT through multiple mechanisms. 2306 61