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)

Klp1 (K562 cells-derived leucine zipper-like protein 1) is a transcription factor which binds to the coproporphyrinogen oxidase promoter regulatory element (GGACTACAG). In order to clarify the function of Klp1, we determined the complete human Klp1 genomic structure and regulatory element in the promoter region. The gene spans about 2.4 kb and has three exons. Its promoter region has multiple GC boxes, E2F binding site, one cAMP response element (CRE), and no TATA box with multiple transcription initiation sites, which is characteristic of housekeeping and growth regulating genes. Promoter analysis showed that the promoter was more active in K562 cells entered into the cell cycle by serum stimulation than quiescent cells. Further promoter analysis revealed that CRE at -42 is essential for full promoter activity, and c-Jun and activation transcription factor 1/cAMP response element binding protein 1 proteins bind to this element. These structural characteristics and the promoter function suggest that Klp1 may play a role in cell cycle regulation.
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PMID:Genomic structure and regulation of a novel human gene, Klp1. 1177 35

Over the past few years we have studied the plasticity of the adult auditory brainstem in the rat following unilateral changes to the pattern of sensory activation, either by intracochlear electrical stimulation or by deafening. We discovered that modifications to afferent activity induced changes in the molecular composition and cellular morphology throughout the auditory brainstem, including its major centers: the cochlear nucleus complex, the superior olivary complex, and the inferior colliculus. The time window studied ranged from 2 h to over 1 year following induction of changes to afferent activity. The molecular markers employed include the NMDA receptor subunit type 1, the cAMP response element binding protein (CREB), the immediate early gene products c-Fos, c-Jun and Egr-1, the growth and plasticity-associated protein GAP-43 and its mRNA, the calcium binding protein calbindin, the cell adhesion molecule integrin-alpha(1), the microtubule-associated protein MAP-1b, and the neurofilament light chain (NF-L). As a consequence of the specific electrical stimulation of the auditory afferents or the loss of hearing, a cascade of events is triggered that apparently modifies the integrative action and computational abilities of the central auditory system. An attempt is made to relate the diverse phenomena observed to a common molecular signaling network that is suspected to bridge sensory experience to changes in the structure and function of the brain. Eventually, a thorough understanding of these events will be essential for the specific diagnosis of patients, optimal timing for implantation, and suitable parameters for running of a cochlear implant or an auditory brainstem implant in humans. In this report an overview of the results obtained in the past years in our lab is presented, flanked by an introduction into the history of plasticity research and a model proposed for intracellular signal cascades related to activity-dependent plasticity.
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PMID:Activity-dependent plasticity in the adult auditory brainstem. 1184 62

Jansen's metaphyseal chondrodysplasia (JMC) is an autosomal dominant disorder characterized by short-limbed dwarfism, delayed ossification, and hypercalcemia. Activating mutations in the PTH/PTHrP receptor have been identified as the molecular cause of this disorder. Although these mutations have been shown to increase cAMP accumulation, little is known about possible target genes of the downstream signaling pathways that may contribute to the pathogenesis of the disease. Here we demonstrate that JMC mutations of the PTH/PTHrP receptor induce activation of the cyclin D1 and cyclin A promoters in primary mouse chondrocytes and rat chondrosarcoma cells. Induction of cyclin D1 expression is required for stimulation of E2F-dependent transcription by mutant receptors. Activation of the cyclin D1 and cyclin A promoters requires a functional cAMP response element in both genes. Inhibition of protein kinase A or the transcription factor cAMP response element binding protein blocks the stimulation of both promoters by mutant receptors, whereas inhibition of activating transcription factor 2, c-Fos, or c-Jun has only minor effects. In summary, our data suggest that stimulation of cell cycle gene expression and cell cycle progression by mutant PTH/PTHrP receptors contribute to the pathogenesis of JMC.
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PMID:The cyclin D1 and cyclin A genes are targets of activated PTH/PTHrP receptors in Jansen's metaphyseal chondrodysplasia. 1219 52

The major protein component of the cornified cell envelope barrier structure of the epidermis is loricrin, and it is expressed late during terminal differentiation in epidermal keratinocytes. We have previously shown that an AP1 site located in the proximal promoter region (position -55) is essential for human loricrin promoter activity (Rossi, A., Jang, S-I., Ceci, R., Steinert, P. M., and Markova, N. G. (1998) J. Invest. Dermatol. 110, 34-40). In this study we show that its regulation requires complex cooperative and competitive interactions between multiple transcription factors in keratinocytes located in different compartments of the epidermis. We show that as few as 154 base pairs of 5'-upstream sequences from the cap site can direct the keratinocyte-specific expression in cultured keratinocytes. Mutation and DNA-protein analyses show that Sp1, c-Jun, an unidentified regulator, and the co-activator p300/CREB-binding protein up-regulate whereas Sp3, CREB-1/CREMalpha/ATF-1, Jun B, and an AP2-like protein (termed the keratinocyte-specific repressor-1 (KSR-1)) suppress loricrin promoter activity. We show that CREB protein can compete with c-Jun for the AP1 site and repress loricrin promoter activity. We show here that the protein kinase A pathway can activate loricrin expression by manipulation of the Sp1, Sp3, and KSR-1 levels in the nucleus. Thus, in undifferentiated cells, loricrin expression is suppressed by Jun B, Sp3, and KSR-1 proteins. But in advanced differentiated cells, levels of Sp3, KSR-1, and CREB proteins are lower; the unidentified regulator protein can bind; Sp1 and c-Jun are increased; and then p300/CBP is recruited. Together, these events allow loricrin transcription to proceed. Indeed, the synergistic effects of the Sp1, c-Jun, and p300 factors indicate that p300/CBP might act as bridge to form an active transcription complex.
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PMID:Loricrin expression in cultured human keratinocytes is controlled by a complex interplay between transcription factors of the Sp1, CREB, AP1, and AP2 families. 1220 Apr 29

Cold immobilization stress induced a marked elevation of expression of activator protein-1 (AP1) complex in rat hypothalamus, pituitary, adrenal, and gastric mucosa, but not in other discrete brain structures examined, when determined immediately after stress for 3 hr. Adrenal AP1 binding linearly increased with the duration of stress up to 6 hr, whereas the increase was seen in both adrenal cortex and medulla of rats stressed for 3 hr. In adrenals, the elevation exhibited decline profiles different from those of expression of cAMP response element binding protein. Western blotting revealed that stress for 3 hr induced significant increases in expression of the components of AP1 complex, c-Fos, c-Jun, and Jun-B proteins, in adrenals, without markedly affecting expression of Fos-B, Fra-2, and Jun-D proteins. The prior systemic administration of N-methyl-D-aspartate (NMDA) led to significant prevention of the elevation after stress for 3 hr in adrenals, whereas the NMDA antagonist dizocilpine alone induced a marked increase in adrenal AP1 binding, without altering the elevation by stress. These results suggest that stress may modulate de novo protein synthesis at the level of gene transcription by AP1 complex through a molecular mechanism associated with NMDA receptor channels in rat adrenal glands.
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PMID:Blockade by N-methyl-D-aspartate of elevation of activator protein-1 binding after stress in rat adrenal gland. 1227 65

Metallic constituents contained in ambient particulate matter have been associated with adverse effects in a number of epidemiologic, in vitro, and in vivo studies. Residual oil fly ash (ROFA) is a metallic by-product of the combustion of fossil fuel oil, which has been shown to induce a variety of proinflammatory responses in lung cells. We have examined signaling pathways activated in response to ROFA exposure and recently reported that ROFA treatment activates multiple mitogen-activated protein (MAP) kinases in the rat lung. In the present study we extended our investigations on the mechanism of toxicity of ROFA to include transcription factors whose activities are regulated by MAP kinases as well as possible effectors of transcriptional changes that mediate the effects of ROFA. We applied immunohistochemical methods to detect ROFA-induced activation of nuclear factor-kappa B (NF kappa B), activating transcription factor-2 (ATF-2), c-Jun, and cAMP response element binding protein (CREB) in intact lung tissue and confirmed and characterized their functional activation using DNA binding assays. We performed these studies using a perfused rabbit lung model that is devoid of blood elements in order to distinguish between intrinsic lung cell effects and effects that are secondary to inflammatory cell influx. We report here that exposure to ROFA results in a rapid activation of all of the transcription factors studied by exerting direct effects on lung cells. These findings validate the use of immunohistochemistry to detect transcription factor activation in vivo and demonstrate the utility of studying signaling changes in response to environmental exposures.
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PMID:Transcription factor activation following exposure of an intact lung preparation to metallic particulate matter. 1236 22

Effects of MK-801 (a NMDA receptor blocker) and CNQX (6-cyano-7-nitroquinoxaline-2,3-dione; a non-NMDA receptor blocker) on several neurotoxic responses induced by kainic acid (KA) were examined in ICR mice. In a lethality test, intracerebroventricular (i.c.v.) pretreatment of MK-801 (1 microg), but not CNQX (0.5 microg), attenuated the time to lethality induced by KA (0.5 microg) administered i.c.v. In the memory test (a passive avoidance test), MK-801, but not CNQX, prevented the memory loss induced by KA (0.1 microg). The damage induced by KA (0.1 microg) administered i.c.v. in the hippocampus was markedly concentrated in the CA3 pyramidal neurons. Both MK-801 and CNQX blocked the pyramidal cell death in CA3 hippocampal region induced by KA. In the immunocytochemical study, KA dramatically increased the phosphorylated ERK (p-ERK) and decreased the phosphorylated CREB (p-CREB) in the hippocmapus. Both MK-801 and CNQX attenuated, in part, the increased p-ERK and the decreased p-CREB induced by KA. In addition, both MK-801 and CNQX partially reduced the increased c-Fos and c-Jun protein expression in hippocampus induced by KA. Our results suggest that both NMDA and non-NMDA receptors are involved in supraspinally administered KA-induced pyramidal cell death in CA3 region of hippocampus in the mouse and the p-ERK and the dephosphorylation of CREB protein may play an important role in CA3 region cell death of the hippocampus induced by KA administered supraspinally. Furthermore, c-Fos and c-Jun proteins may serve as third messengers responsible for CA3 pyramidal cell death induced by supraspinally administered KA.
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PMID:Effects of MK-801 and CNQX on various neurotoxic responses induced by kainic acid in mice. 1252 Dec 95

In the present study, we examined the effects of ginsenoside Rd (G-Rd) and decursinol (DC) on various neurotoxic responses induced by kainic acid (KA) administered intracerebroventricularly ( i. c. v.) in ICR mice. Ginseng total saponin (GTS) inhibited the KA (0.5 microg)-induced lethal toxicity in a dose-dependent manner. Furthermore, G-Rd, a component of GTS, also attenuated the KA-induced lethal toxicity as well as DC pretreated orally for 30 min. In ICR mouse, neurotoxic damage induced by KA (0.1 microg) in the hippocampus was markedly concentrated in the CA3 pyramidal neurons. G-Rd and DC did not affect the pyramidal cell death in CA3 hippocampal region. In an immunohistochemical study, KA dramatically increased phospho-ERK and decreased phospho-CREB in the hippocampal area. G-Rd and DC attenuated, in part, the increased phospho-ERK and the decreased phospho-CREB protein levels. However, DC potentiated the increased c-Fos and c-Jun protein levels in the hippocampus induced by KA. Thus, our results suggest that the phosphorylation of ERK or the dephosphorylation of CREB protein may play a major role in the regulation of lethal toxicity induced by KA, whereas cell death in the hippocampal CA3 region induced by KA administered i. c. v. may not be directly mediated by ERK phosphorylation and CREB phosphorylation in the mouse.
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PMID:Effects of ginsenoside Rd and decursinol on the neurotoxic responses induced by kainic acid in mice. 1267 26

p300 and cAMP response element binding protein (CREB)-binding protein (CBP) are two highly homologous, conserved transcriptional coactivators, and histone acetyltransferases (HATs) that link chromatin remodeling with transcription. Cell transformation by viral oncogene products such as adenovirus E1A and SV40 large T antigen depends on their ability to inactivate p300 and CBP. To investigate the role of p300 in cell-cycle progression, we constructed stable rat cell lines, which conditionally overexpress p300 from a tetracycline-responsive promoter. When p300 was induced in these cells, serum-stimulated S-phase entry was significantly inhibited. The inhibition of S-phase induction was associated with down-regulation of c-Myc, but not of c-Fos or c-Jun. Simultaneous overexpression of c-Myc and p300 before serum stimulation reversed the inhibition of S-phase induction to a significant level, indicating that the inhibition of c-Myc to a large extent is responsible for the p300 inhibition of G1 exit. Similar studies with stable rat cell lines that overexpress a mutant p300, which lacks the HAT activity, showed that the intrinsic HAT activity of p300 is not required for the negative regulation of c-Myc or G1. These findings, and our previously published results (Kolli, S., Buchmann, A. M., Williams, J., Weitzman, S. & Thimmapaya, B. (2001) Proc. Natl. Acad. Sci. USA 98, 4646-4651), establish an important negative regulatory role for p300 in c-Myc expression that may be important in maintaining the cells in the G0/G1 phase of the cell cycle.
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PMID:Repression of c-Myc and inhibition of G1 exit in cells conditionally overexpressing p300 that is not dependent on its histone acetyltransferase activity. 1288 11

Although it is recognized that estrogen is one of the most important regulators of GnRH receptor (GnRHR) gene expression, the mechanism underlying the regulation at the transcriptional level is unknown. In the present study, we demonstrated that 17beta-estradiol (E2) repressed human GnRHR promoter via an activator protein 1-like motif and estrogen receptor-alpha, of which the DNA-binding domain and the ligand-binding domain were indispensable for the repression. Interestingly, the same cis-acting motif was also found to be important for both the basal activity and phorbol 12-myristate 13-acetate responsiveness of the GnRHR promoter. EMSAs indicated that multiple transcription factors including c-Jun and c-Fos bound to the activator protein 1-like site and that their DNA binding activity was not significantly affected by E2 treatment. In addition, we demonstrated that the E2 repression could be antagonized by phorbol 12-myristate 13-acetate, which stimulated c-Jun phosphorylation on serine 63, a process that is a prerequisite for recruitment of the transcriptional coactivator cAMP response element binding protein (CREB)-binding protein (CBP). Concomitantly, we found that overexpression of CBP could reverse the suppression in a dose-dependent manner. Taken together, our data indicate that E2-activated estrogen receptor-alpha represses human GnRHR gene transcription via an indirect mechanism involving CBP and possibly other transcriptional regulators.
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PMID:An activator protein 1-like motif mediates 17beta-estradiol repression of gonadotropin-releasing hormone receptor promoter via an estrogen receptor alpha-dependent mechanism in ovarian and breast cancer cells. 1294 46

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