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)

Basic leucine zipper proteins Jun and Fos form the dimeric transcription factor AP-1, essential for cell differentiation and immune and antioxidant defenses. AP-1 activity is controlled, in part, by the redox state of critical cysteine residues within the basic regions of Jun and Fos. Mutation of these cysteines contributes to oncogenic potential of Jun and Fos. How cells maintain the redox-dependent AP-1 activity at favorable levels is not known. We show that the conserved coactivator MBF1 is a positive modulator of AP-1. Via a direct interaction with the basic region of Drosophila Jun (D-Jun), MBF1 prevents an oxidative modification (S-cystenyl cystenylation) of the critical cysteine and stimulates AP-1 binding to DNA. Cytoplasmic MBF1 translocates to the nucleus together with a transfected D-Jun protein, suggesting that MBF1 protects nascent D-Jun also in Drosophila cells. mbf1-null mutants live shorter than mbf1+ controls in the presence of hydrogen peroxide (H2O2). An AP-1-dependent epithelial closure becomes sensitive to H2O2 in flies lacking MBF1. We conclude that by preserving the redox-sensitive AP-1 activity, MBF1 provides an advantage during oxidative stress.
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PMID:Coactivator MBF1 preserves the redox-dependent AP-1 activity during oxidative stress in Drosophila. 1530 51

Resveratrol has demonstrated preventive and therapeutic activities in a variety of tumors. However, the mechanistic basis of its pharmacological effects on human melanoma has not been well defined. Our results demonstrated that resveratrol significantly inhibited melanoma anchorage-independent growth, and even at high doses no distinct apoptosis or cell cycle arrest was observed. It is noteworthy that c83-2c (metastatic) and wm3211 (radial growth phase) melanoma cells became more dendritic shaped with resveratrol treatment. Major histocompatibility complex (MHC) class I antigen and Fas/CD95 constitutive surface expression levels were, respectively, increased by 2.7- and 1.6-fold of control in c83-2c cells. Resveratrol reduced both activator protein-1 (AP-1) DNA binding and transcriptional activities, and supershift assay revealed that AP-1 composition was shifted from c-Jun/JunD/Fra-1 to JunD/Fra-1/Fra-2, with markedly increased JunD, Fra-1, and Fra-2 protein expression levels in the nucleus. Furthermore, we overexpressed Fra-2 in human melanoma cells by using a Fra-2 expression construct and both AP-1 transcriptional activity and 12-O-tetradecanoylphorbol-induced transcriptional transactivation were reduced significantly, whereas MHC class I antigen and Fas/CD95 levels were elevated to 2.0 and 1.8 times of control, respectively. Addition of H(2)O(2) (10 muM) partially reversed the inhibition of colony proliferation; however, no effects on either MHC class I antigen or Fas expression was evident. Although H(2)O(2) restored participation of c-Jun in AP-1 complexes, H(2)O(2) addition did not affect the induction of Fra-1 and Fra-2 by resveratrol nor the morphological changes. We propose that alterations in AP-1 transcription signaling, mediated by changes in AP-1 dimeric composition and reduced intracellular reactive oxygen species levels, substantially contribute to the phenotypic changes induced by resveratrol.
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PMID:Alterations in activating protein 1 composition correlate with phenotypic differentiation changes induced by resveratrol in human melanoma. 1549 15

The heterodimeric c-Jun/c-Fos, an activator protein-1 (AP-1) has been implicated in mesoderm induction (Dong et al., 1996; Kim et al., 1998) whereas the homodimer of c-Jun was reported to be involved in neural inhibition during the early development of Xenopus embryos. During the early vertebrate development AP-1 involvement in the neural induction is still not clearly understood. We report here that AP-1 has a role in Zic3 expression, a critical proneural gene and a primary regulator of neural and neural crest development (Nakata et al., 1997; Nakata et al., 1998). AP-1 was able to induce the Zic3 gene in a dose dependent manner but other homo- or hetero-dimeric proteins, such as c-Jun/c-Jun, JunD/FosB or JunD/Fra-1 were not. The inhibition of AP-1 activity using morpholino antisenses of c-jun mRNAs blocked the Zic3 expression induced by activin. In addition, co-injection of c-jun mRNA rescued the down-regulated Zic3 expression. The promoter region of isolated Zic3 genomic DNA was found to possess several consensus-binding site of AP-1. Thus, in the functional assays, AP-1 could increase promoter activity of Zic3 gene. These findings suggest that proneural gene, Zic3 may be regulated by heterodimeric AP-1(c-Jun/c-Fos) and it may have a role in activin signaling for the regulation of neural specific gene, Zic3.
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PMID:Transcriptional regulation of Zic3 by heterodimeric AP-1(c-Jun/c-Fos) during Xenopus development. 1555 19

We report here that the human glutathione S-transferase P1 (GSTP1) protein, involved in phase II metabolism of many carcinogens and anticancer agents and in the regulation of c-Jun NH(2)-terminal kinase-mediated cell signaling, undergoes phosphorylation by the Ser/Thr protein kinases, cAMP-dependent protein kinase (PKA) and protein kinase C (PKC), resulting in a significant enhancement of its metabolic activity. GSTP1 phosphorylation by PKA was glutathione (GSH)-dependent, whereas phosphorylation by PKC did not require but was significantly enhanced by GSH. In the presence of GSH, the stoichiometry of phosphorylation was 0.4 +/- 0.03 and 0.53 +/- 0.02 mol incorporated phosphate per mole of dimeric GSTP1 protein. The GSTP1 protein was phosphorylated, in the presence of GSH, by eight different PKC isoforms (alpha, betaIota, betaIotaIota, delta, epsilon, gamma, eta, and zeta), belonging to the three major PKC subclasses, albeit with various efficiencies. The catalytic efficiency, k(cat)/K(m), of the phosphorylated GSTP1 was more than double that of the unphosphorylated protein. In MGR3 human glioblastoma cells, PKA and PKC activation resulted in a significant increase in the level of phosphorylation of the GSTP1 protein and was accompanied by a 2.1- and 2.7-fold increase, respectively, in specific GSTP1 activity in the cells. Peptide phosphorylation analyses and both phosphorylation and enzyme kinetic studies with GSTP1 proteins mutated at candidate amino acid residues established Ser-42 and Ser-184 as putative phospho-acceptor residues for both kinases in the GSTP1 protein. Together, these findings show PKA- and PKC-dependent phosphorylation as a significant post-translational mechanism of regulation of GSTP1 function. The GSH-dependence of the phosphorylation suggests that under high intracellular GSH conditions, such as is present in most drug-resistant tumors, the GSTP1 protein will exist in a hyper-phosphorylated and enzymatically more active state. In normal cells, the functional activation of the GSTP1 protein by PKA- and PKC-dependent phosphorylation could represent a potentially important mechanism of cellular protection, whereas in tumors, increased phase II metabolism of anticancer drugs by the more active phosphorylated GSTP1 protein could contribute to the drug resistance and therapeutic failure frequently associated with increased activities of these Ser/Thr kinases.
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PMID:The human glutathione S-transferase P1 protein is phosphorylated and its metabolic function enhanced by the Ser/Thr protein kinases, cAMP-dependent protein kinase and protein kinase C, in glioblastoma cells. 1560 83

Sensorineural hearing loss is often associated with damage of cochlear hair cells and/or of the neurons of the auditory pathway. This damage can result from a variety of causes, e.g. genetic disorders, aging, exposure to certain drugs such as aminoglycosides, infectious disease and intense sound overexposure. Intracellular events that mediate aspects of aminoglycoside-mediated damage to hair cells have been partially unraveled. Several independent research groups have demonstrated a crucial role of mitogen-activated protein kinase signaling in aminoglycoside-induced ototoxicity. Mitogen-activated protein kinases are important mediators of signal transduction from the cell surface to the nucleus. Jun N-terminal kinases, members of the mitogen-activated protein kinase family, are strongly activated in cell culture conditions by stress inducing stimuli, including ultraviolet light, heat shock and tumor necrosis factor; therefore they are also referred to as stress-activated protein kinases. In hair cells aminoglycoside treatment was shown to activate the Jun N-terminal kinase signaling pathway. Activation of Jun N-terminal kinase leads to phosphorylation and thereby activation of transcription factors and consequently to altered gene expression. There are many nuclear Jun N-terminal kinase substrates including c-Jun, ATF-2, and Elk-1 proteins. One of the downstream targets of Jun N-terminal kinase is the transcription factor activating protein-1. Activating protein-1 is a dimeric complex composed of members of the Fos and Jun proteins. A variety of different stimuli is known to induce activating protein-1 activity. Induction of activating protein-1 is thought to play a central role in reprogramming gene expression in response to external stimuli. In this study we have analyzed the effect of gentamicin treatment on the downstream targets of Jun N-terminal kinase. Our results demonstrate that gentamicin treatment of explants of organ of Corti results in increased activating protein-1 binding activity. The main component of these activating protein-1 complexes is the c-Fos protein. Moreover, we show that the activating protein-1 induction is transient and occurs exclusively in hair cells of rat organ of Corti explants.
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PMID:Alteration of activator protein 1 DNA binding activity in gentamicin-induced hair cell degeneration. 1633 90

Activator protein-1 (AP-1) is a crucial transcription factor implicated in numerous cancers. For this reason, nine homologues of the AP-1 leucine zipper region have been characterized: Fos (c-Fos, FosB, Fra1, and Fra2), Jun (c-Jun, JunB, and JunD), and semirational library-designed winning peptides FosW and JunW. The latter two were designed to specifically target c-Fos or c-Jun. They have been identified by using protein-fragment complementation assays combined with growth competition. This assay removes nonspecific, unstable, and protease susceptible library members from the pool, leaving winners with excellent drug potential. Thermal melts of all 45 possible dimeric interactions have been surveyed, with the FosW-c-Jun complex displaying a melting temperature (T(m)) of 63 degrees C, compared to only 16 degrees C for wild-type c-Fos-c-Jun interaction. This impressive 70,000-fold K(D) decrease is largely due to optimized core packing, alpha-helical propensity, and electrostatics. Contrastingly, due to a poor c-Fos core, c-Fos-JunW dimerizes with lower affinity. However the T(m) far exceeds wild-type c-Fos-c-Jun and averaged JunW and c-Fos, indicating a preference over either homodimer. Finally, and with wider implications, we have compiled a method for predicting interaction of parallel, dimeric coiled coils, using our T(m) data as a training set, and applying it to 59 bZIP proteins previously reported. Our algorithm, unlike others to date, accounts for helix propensity, which is found to be integral in coiled coil stability. Indeed, in applying the algorithm to these 59(2) bZIP interactions, we were able to correctly identify 92% of all strong interactions and 92% of all noninteracting pairs.
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PMID:Semirational design of Jun-Fos coiled coils with increased affinity: Universal implications for leucine zipper prediction and design. 1675 80

Bone resorbing osteoclasts are specialized macrophages that cannot differentiate in the absence of c-Fos, a member of the dimeric transcription factor AP-1 (activator protein-1). However, osteoclast differentiation in the absence of c-Fos can be rescued in vitro and in vivo by Fra1, a Fos-like protein and transcriptional target of c-Fos. To enable AP-1 proteins binding to DNA, c-Fos or Fra1 must heterodimerize with a partner such as c-Jun, JunB and JunD. In this study, we investigated the dimerization partners of c-Fos and Fra1 required for osteoclast differentiation using synthetic "single-chain" AP-1 dimers in which c-Fos or Fra1 is tethered via a linker to Jun proteins. When c-Fos was analyzed in combination with any Jun protein, including a c-Jun mutant lacking major phosphorylation sites for c-Jun amino-terminal kinase (JNK), osteoclasts were efficiently formed from c-Fos-deficient hematopoietic precursors. However, Fra1 in combination with any Jun protein could not rescue osteoclastogenesis. The ability to rescue was compared to transcriptional activity measured in transient transfection assays using promoters driven by consensus AP-1 sites or a composite AP-1/NFAT binding site. These data show that a single Jun/c-Fos dimer is sufficient for osteoclast differentiation, likely due to its transactivation ability for a broader range of promoters, in particular consensus AP-1 sites. We propose that Fra1 together with a dimerization partner different from Jun proteins can rescue osteoclast differentiation in c-Fos-deficient precursors.
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PMID:Role of heterodimerization of c-Fos and Fra1 proteins in osteoclast differentiation. 1718 21

Two c-Jun leucine zipper variants that bind with high affinity to c-Fos have been selected using semirational design combined with protein-fragment complementation assays (JunW) or phage display selection (JunW(Ph1)). Enriched winners differ from each other in only two of ten semi-randomized positions, with DeltaT(m) values of 28 degrees C and 37 degrees C over wild-type. cFos-JunW, cFos-JunW(Ph1), and two intermediate mutants (cFos-JunW(Q21R) and cFos-JunW(E23K)) display biphasic kinetics in the folding direction, indicating the existence of a folding intermediate. The first reaction phase is fast and concentration-dependent, showing that the intermediate is readily populated and dimeric. The second phase is independent of concentration and is exponential. In contrast, in the unfolding direction, all molecules display two-state kinetics. Collectively this implies a transition state between unfolded helices and dimeric intermediate that is readily traversed in both directions. We demonstrate that the added stability of cFos-JunW(Ph1) relative to cFos-JunW is achieved via a combination of kinetic rate changes; cFos-JunW(E23K) has an increased initial dimerization rate, prior to the major transition state barrier while cFos-JunW(Q21R) displays a decreased unfolding rate. The former implies that improved hydrophobic burial and helix-stabilizing mutations exert their effect on the initial, rapid, monomer-collision event. In contrast, electrostatic interactions exert their effect late in the folding pathway. Although our focus is the leucine zipper region of the oncogenic transcription factor Activator Protein-1, coiled coils are ubiquitous and highly specific in their recognition of partners. Consequently, generating kinetic-based rules to predict and engineer their stability is of major significance in peptide-based drug design and nano-biotechnology.
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PMID:Improved stability of the Jun-Fos Activator Protein-1 coiled coil motif: A stopped-flow circular dichroism kinetic analysis. 1748 89

c-Fos proto-oncoprotein forms AP-1 transcription complexes with heterodimerization partners such as c-Jun, JunB, and JunD. Thereby, it controls essential cell functions and exerts tumorigenic actions. The dynamics of c-Fos intracellular distribution is poorly understood. Hence, we have combined genetic, cell biology, and microscopic approaches to investigate this issue. In addition to a previously characterized basic nuclear localization signal (NLS) located within the central DNA-binding domain, we identified a second NLS within the c-Fos N-terminal region. This NLS is non-classic and its activity depends on transportin 1 in vivo. Under conditions of prominent nuclear localization, c-Fos can undergo nucleocytoplasmic shuttling through an active Crm-1 exportin-independent mechanism. Dimerization with the Jun proteins inhibits c-Fos nuclear exit. The strongest effect is observed with c-Jun probably in accordance with the relative stabilities of the different c-Fos:Jun dimers. Retrotransport inhibition is not caused by binding of dimers to DNA and, therefore, is not induced by indirect effects linked to activation of c-Fos target genes. Monomeric, but not dimeric, Jun proteins also shuttle actively. Thus, our work unveils a novel regulation operating on AP-1 by demonstrating that dimerization is crucial, not only for active transcription complex formation, but also for keeping them in the compartment where they exert their transcriptional function.
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PMID:Heterodimerization with Jun family members regulates c-Fos nucleocytoplasmic traffic. 1768 51

Accumulating evidence has shown that both phosphorylated c-Jun (pc-Jun) and activating transcription factor 3 (ATF3) were upregulated in a variety of tissue injuries and proposed to play an important role in cell death/survival. To elucidate the significance and functional role of these immediate-early genes during neuronal damage in the central nervous system, we examined temporal and spatial profiles of pc-Jun and ATF3 in dopaminergic neurons of the substantia nigra (SN) following transection of the medial forebrain bundle (MFB) in adult rats. Morphological characteristics of pc-Jun-positive dopaminergic neurons as well as microglial reaction in response to the axotomy-induced neurodegeneration were also investigated. Following MFB transection, both c-Jun phosphorylation and ATF3 were found in the nuclei of tyrosine hydroxylase-immunoreactive (TH-ir) neurons of the ipsilateral SN, but not in those of the contralateral SN. In the ipsilateral SN, the number of pc-Jun- and ATF3-positive nuclei was increased by 5-7 days post-lesion, and then progressively decreased probably due to the loss of neurons. Retrograde tracing with FluoroGold (FG) in hemi-axotomized rat brain demonstrated that none of the intact, unaxotomized (FG-ir) neurons was pc-Jun-positive, indicating phosphorylation of c-Jun occurs only in axotomized neurons. Concomitant co-localization of pc-Jun and ATF3 in the same TH-ir neuron was also demonstrated by triple immunofluorescence labeling. Many TH-ir neurons that underwent various steps of consecutive neurodegenerative changes retained pc-Jun in the condensed or fragmented nuclei. Moreover, numerous activated microglia, identified by both phagocytic (ED1) and MHC II (OX6) markers, closely apposed to these neurons throughout the entire neurodegenerative process, suggesting that they are actively phagocytosing dying neurons. Taken together, these results support the idea that pc-Jun and its putative dimeric partner ATF3 may be closely participating in axotomy-induced neurodegeneration.
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PMID:Axotomy-induced dopaminergic neurodegeneration is accompanied with c-Jun phosphorylation and activation transcription factor 3 expression. 1803 93

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