Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.1 (protein kinase)
 81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The mechanisms by which pX, the transactivator of the hepatitis B virus (HBV), exerts its effects on transcription of viral and cellular genes and affects cell-growth regulation have not yet been fully defined. Previous reports suggested the possibility of a direct interaction of pX, which lacks intrinsic DNA-binding activity, with components of the cellular transcription machinery. More recent investigations support the hypothesis that pX might activate cellular kinases involved in transcriptional regulation and growth control. We characterized the mechanisms of AP-1 transcription factor activation by pX and, in particular, the role of cellular proteins involved in the intracellular signal transduction of growth-factor receptors. The observation that the overexpression of c-fos and c-jun in the cells results in a clear augmentation of the effects of pX on TRE-directed transcription and the induction of the DNA-binding activity of c-jun/c-fos heterodimers by AP1-depleted nuclear extracts from pX-expressing cells strongly supports the involvement of post-translational modifications. In both HeLa and undifferentiated F9 cells, pX was able to increase the activity of exogenous transfected c-jun but not of c-jun mutants bearing mutations in the serine residues located in the amino-terminal transcriptional activation domain. Moreover, by use of Ha-ras and Raf-1 dominant negative mutants, we show that both Ha-ras and Raf-1 are required for pX-induced activation of c-jun transcriptional activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Modulation of intracellular signal transduction pathways by the hepatitis B virus transactivator pX. 760 67

The hypothalamic neuropeptide TRH, which stimulates prolactin (PRL) release and PRL gene transcription, also raises c-fos proto-oncogene mRNA levels in GH3B6 rat pituitary cells. C-fos is assumed to be involved in the transduction of external signals to the nucleus as a component of AP1 transcription factor, a protein complex that contains a member of the jun proto-oncogene family. We have thus looked for the member(s) of the jun family that could be the partner of c-fos in TRH-stimulated GH3B6 cells. The common biphasic pattern of jun B and c-fos mRNA regulation under TRH exposure, i.e., an early peak and a long-lasting plateau phase, suggested that jun B was the best candidate. Then, to better understand the mode of action of TRH and to look for possible functions of c-fos and jun B in these cells, we have investigated the role of different intracellular signalings in the induction of each proto-oncogene. This was done taking as a model that the effects of TRH on PRL release and PRL gene transcription has been previously ascribed to the coupling of the TRH receptor to the activation of both protein kinase C- and calcium-dependent mechanisms. An extensive pharmacological analyses revealed that PKC-, Ca2+ but also protein kinase A-dependent mechanisms are involved in TRH-induced c-fos and jun B mRNA early responses in GH3B6 cells. The overall study also revealed specific features in the control by TRH of each proto-oncogene by some intracellular messengers. Finally, considering the fact that second long lasting phase of proto-oncogene expression was found associated with increased PRL mRNA accumulation whatever the stimulus, it might be proposed that AP1 [c-Fos/Jun B] factor could be involved in the regulation of PRL gene expression. Such hypothesis was furthermore supported by preliminary gel-shift experiments. Nevertheless, in view of the systematic coincidence between acute PRL release and early proto-oncogene induction, a role for c-fos and jun B in the control of genes involved in the secretory process might also be suggested.
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PMID:[Stimulation of C-fos and jun B proto-oncogenes: potential role of TRH effects in clone cell line with prolactin (GH3B6)]. 764 71

Angiotensin II (Ang-II) receptor engagement activates many immediate early response genes in both vascular smooth muscle cells and cardiomyocytes whether a hyperplastic or hypertrophic response is taking place. Although the signaling pathways stimulated by Ang-II in different cell lines have been widely characterized, the correlation between the generation of different second messengers and specific physiological responses remains relatively unexplored. In this study, we report how in both C2C12 quiescent myoblasts and differentiated myotubes Ang-II significantly stimulates AP1-driven transcription and c-Jun.c-Fos heterodimer DNA binding activity. Using a set of different protein kinase inhibitors, we could demonstrate that Ang-II-induced increase in AP1 binding is not mediated by the cAMP-dependent pathway and that both protein kinase C and tyrosine kinases are involved. The observation that in quiescent myoblasts Ang-II increase of AP1 binding and induction of DNA synthesis and, in differentiated myotubes, Ang-II stimulation of protein synthesis are abolished by the cysteine-derivative and glutathione precursor N-acetyl-L-cysteine strongly suggests a role for reactive oxygen intermediates in the intracellular transduction of Ang-II signals for immediate early gene induction, cell proliferation, and hypertrophic responses.
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PMID:Reactive oxygen intermediates mediate angiotensin II-induced c-Jun.c-Fos heterodimer DNA binding activity and proliferative hypertrophic responses in myogenic cells. 767 90

Increasing evidence suggests that angiotensin II may act as a growth factor for several muscle cell types. Angiotensin II stimulation activates many immediate early response genes like c-Fos, c-Jun, c-Myc and Egr-1 in both vascular smooth muscle cells and cardiomyocytes, independently of whether a hyperplastic or hypertrophic response is taking place. In this study we report that angiotensin II significantly stimulates AP1-driven transcription in mouse skeletal muscle cells C2C12 stably transfected with a TRE-tk-CAT plasmid in a dose-dependent manner (peak stimulation at 10(-5) M of angiotensin II). Moreover, angiotensin II increases the binding of the AP1 complex to its DNA target in both quiescent C2C12 myoblasts and in differentiated C2C12 myotubes. Most of the TRE-bound complexes in both unstimulated and angiotensin II-treated cells consist of c-jun/c-fos heterodimers. Using a set of different protein kinase inhibitors, including HA1004, H7, tyrphostin, genistein and staurosporine, we could demonstrate that the angiotensin II-induced AP1 binding increase is not mediated by the cAMP-dependent pathway and that protein kinase C and tyrosine kinases are involved. Treatment of C2C12 cells with H2O2 induces a dose-dependent increase in c-jun/c-fos heterodimer binding, specifically reverted by the cysteine derivative and glutathione precursor N-acetyl-L-cysteine (NAC). The observation that the induction by angiotensin II of both the AP1 DNA binding activity and DNA synthesis in quiescent C2C12 myoblasts is abolished by NAC strongly suggests a role for reactive oxygen intermediates (ROIs) in the intracellular transduction of angiotensin II signals for immediate early gene induction and for cell proliferation.
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PMID:Reactive oxygen intermediates (ROIs) are involved in the intracellular transduction of angiotensin II signal in C2C12 cells. 775 83

Neurons from the granular layer of the cerebellum express functional beta 2-adrenoreceptors (beta 2-ARs). We show that stimulation of beta 2-ARs with isoprenaline increases cyclic AMP (cAMP) production and stimulates transcription of genes containing the cAMP-responsive element (CRE; TGACGTCA). This effect is mediated by cAMP-dependent protein kinase and the trans-acting factor CRE binding protein. Transcriptional regulation by the beta 2-AR was investigated by using the c-fos protooncogene as a model system. We show that beta 2-ARs stimulate c-fos mRNA accumulation, increase AP1 binding activity, and stimulate transcription through the phorbol ester-responsive element (TGACTCA). The transcriptional regulation of c-fos itself was studied with reporter constructs driven by c-fos promoter sequences. Deletion studies revealed that beta 2-ARs stimulate c-fos transcription through at least three distinct regulatory sequences: (a) the CRE located at -60 bp 5' to the initiation site, (b) the fos AP1-like element (-291 to -297), and (c) the serum-responsive element (-297 to -317). The regulation of these elements by the two putative second messengers of the beta 2-AR, cAMP and Ca2+, was analyzed. We report that all three of these regulatory sequences are coregulated by both second messengers. These results indicate that beta 2-ARs stimulate c-fos transcription by multiple cAMP- and Ca(2+)-dependent regulatory elements in neurons.
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PMID:Beta 2-adrenoreceptors stimulate c-fos transcription through multiple cyclic AMP- and Ca(2+)-responsive elements in cerebellar granular neurons. 779 40

The c-Fos and c-Jun proteins bind an AP1 site and activate transcription synergistically. These two proteins have a common activation domain which has two co-operating motifs, HOB1 and HOB2. The HOB1 motif of c-Jun includes S73 which is required for Ha-Ras-induced super-activation and phosphorylation by MAP kinase-like enzymes. Since c-Fos HOB1 has a conserved Thr residue (T232) analogous to c-Jun S73 we have proposed that c-Fos HOB1 will be regulated in the same way as c-Jun HOB1. Here we show that the HOB1-containing activation domain of c-Fos is stimulated by Ha-Ras in vivo and phosphorylated by a MAP kinase family member in vitro and that mutating T232 to Ala abolishes both functions. Collectively these results suggest that phosphorylation of the HOB1 motif increases its activation capacity. To provide direct evidence for this we change the context of c-Fos T232 to a PKA recognition site, and show that HOB1 activity is now stimulated by the catalytic subunit of PKA. This 'PKA specificity' experiment represents a novel and powerful way to analyse phosphorylation events involved in a variety of biological functions.
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PMID:Phosphorylation of the c-Fos and c-Jun HOB1 motif stimulates its activation capacity. 781 2

The chimeric chloramphenicol acetyltransferase (CAT) construct, pTRCAT5'-199, containing the TSH receptor (TSHR) minimal promoter, -199 to -39 base pairs (bp), exhibits the thyroid specificity and TSH/cAMP autoregulation evident in TSHR gene expression. The present report shows that a cis-acting element between -189 and -175 bp, which binds thyroid transcription factor-1 (TTF-1), is involved in both activities. The 22 bp between -199 and -178 contains a positive element important for expression of the TSHR minimal promoter in rat FRTL-5 thyroid cells. DNAase I footprinting shows that extracts from functioning FRTL-5, but not non-functioning FRT thyroid or Buffalo rat liver (BRL) cells, protect a region between -189 and -175 bp. The protection is duplicated by TTF-1, and the protected element has only a two-base mismatch from the consensus TTF-1 element identified in the thyroglobulin (TG) and thyroid peroxidase minimal promoters. Gel mobility shift analyses reveal that FRTL-5 thyroid cell nuclear extracts form a specific protein/DNA complex with this region, which is prevented by the TTF-1 binding element from the TG promoter; FRT and BRL cell nuclear extracts do not have TTF-1 and do not form this complex. A role for the TSHR/TTF-1 binding element in thyroid-specific expression of the TSHR gene is evidenced as follows. Overexpression of TTF-1 in FRT or BRL cells, which have no TTF-1, increased the activity of pTRCAT5'-199, but not pTRCAT5'-177, which has no TTF-1 binding element. A nonsense mutation of the TTF-1 binding element eliminated TTF-1-induced activation of TSHR promoter activity in FRT or BRL cells and reduced TSHR promoter activity in FRTL-5 thyroid cells. In contrast, mutation of this element to the TTF-1 consensus sequence of the TG or thyroid peroxidase promoter had no significant influence on TSHR promoter activity. The activity of the TSHR/TTF-1 binding element requires a functioning cAMP response element (CRE). Thus, TTF-1 activity is lost when the CRE site is mutated to a nonfunctional, nonpalindromic sequence; it is, in contrast, maximized when CRE activity is maximized by its mutation to a consensus AP1 element. TTF-1 phosphorylation is important for binding and activity. Thus, binding of TTF-1 to the TSHR/TTF-1 element is phosphatase-sensitive and is increased by treating nuclear extracts with the catalytic subunit of protein kinase A. Overexpression of the catalytic subunit of PKA enhances TTF-1-increased activity of the TSHR minimal promoter.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Thyroid-specific expression and cyclic adenosine 3',5'-monophosphate autoregulation of the thyrotropin receptor gene involves thyroid transcription factor-1. 799 32

The activation of cyclic AMP-dependent protein kinase is controlled by the regulatory (R) subunits of the holoenzyme. Here we present a characterization of the mouse RI beta subunit gene, which in contrast to other subunit genes of cyclic AMP-dependent protein kinase is expressed almost exclusively in neurons. It was determined that RI beta is relatively large with 11 exons spanning a minimum 75 kb. The mouse chromosomal locus (designated Prkar1b) was determined by interspecific backcross mapping and found to reside on the distal arm of chromosome 5. Previously, it was shown that 3.5 kb of DNA encompassing the RI beta promoter could direct neural-specific gene expression in transgenic mice. Analysis of this DNA suggests the presence of an unusually large number of binding sites for transcription factors ranging from tissue-specific regulators, immediate-early genes, and mediators of hormone action. In addition to 18 putative SP1 sites, we identified 27 consensus sequences for basic Helix-Loop-Helix, POU, and Pax family members, 5 AP1 sites, and over 40 half-sites for the superfamily of steroid hormone receptor. Gel mobility-shift assays employing brain nuclear extract and pure transcription factor protein established that many of these DNA sequences are functional in binding protein. The abundance and configuration of transcription factor binding sites within the promoter region of RI beta suggests that this gene is subject to complex modes of regulation in neurons.
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PMID:Structural features of the murine gene encoding the RI beta subunit of cAMP-dependent protein kinase. 803 83

Somatic mutations of the alpha subunit of Gs (G alpha s) have been detected in a variety of endocrine tumors. To test whether G alpha s is an oncogene, we investigated the genomic effects of G alpha s protein in which the GTPase activity had been inactivated. Results from transient transfection studies show that such proteins increase 1) transcription of a reporter gene driven by the minimal cAMP-responsive element (TGACGTCA) and 2) c-fos transcription in several endocrine cell lines (GH3, AtT20, and PC12). By promoter deletion analyses and genetic inactivation of cAMP-dependent protein kinase, we show that this transcriptional stimulation by G alpha s impinges on several regulatory elements within the c-fos promoter and operates within the protein kinase A pathways. Stable PC12 cell lines were established to analyze long-term effects of constitutively active G alpha s. Cell lines expressing mutated G alpha s have elevated cAMP levels and increased AP1 binding activity. Transcription of a variety of genes, including c-fos, c-jun, and junB, is increased in these cells. The strong and permanent effects of G alpha s on early immediate genes, and c-fos in particular, may be responsible for the oncogenic potential of G alpha s in endocrine cells.
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PMID:Genomic effects of the putative oncogene G alpha s. Chronic transcriptional activation of the c-fos proto-oncogene in endocrine cells. 807 18

In LLC-PK1 cells, the urokinase-type plasminogen activator (uPA) gene is induced by two of the major signal transduction pathways, the protein kinase C (PKC) and the cAMP-dependent protein kinase (PKA) pathways. We have analyzed the chromatin structure of 26 kb of the uPA gene locus and have shown that PKA activation but not PKC activation induce major chromatin structural alterations in the uPA gene promoter. In uninduced cells, several DNase I hypersensitive (HS) sites were detected in the 5' and 3' flanking regions but not in the transcribed region. Two of the sites correspond to previously characterized regulatory sites: a cAMP responsive site at nucleotide position -3500 with respect to the initiation site, and the PEA3/AP1 site at -2100 that mediates PKC activation. After the activation of PKA but not PKC, a strong HS site was induced at -2600. Functional analysis of this region revealed cAMP responsive activity. Chromatin structural alterations again brought about specifically by PKA but not by PKC were were also detected in the upstream of the promoter by topoisomerase I cleavage site analysis, with two prominent sites appearing at -2800 and -3300. These results suggest that the strong cAMP induction of the uPA gene requires structural alterations that permit cooperative interactions between the multiple cAMP responsive sites.
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PMID:Activation of cAMP-dependent protein kinase alters the chromatin structure of the urokinase-type plasminogen activator gene promoter. 812 5


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