EC:2.7.11.1 - FACTA Search

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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The genes of the Jun family encode components of the TPA-inducible transcription factor AP-1. These genes are induced by a wide variety of extracellular stimuli, such as growth factors, phorbol esters and activators of protein kinase A. We have previously shown that the adenovirus type 5 E1A protein (E1A5) induces c-jun and junB expression in a number of different cell types. In this paper we show that the third member of the Jun family, junD, is also strongly induced by E1A5. Multiple sequences in the junB and junD promoters are responsible for the effects of E1A5. By contrast, adenovirus type 12 E1A (E1A12), like retinoic acid (RA), strongly induces c-jun expression, while expression of junB and junD is not altered. Interestingly, E1A12 expression leads to complete differentiation of P19 EC cells, comparable to the effect of RA on these cells, while E1A5-expressing cells are only partially differentiated.
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PMID:Differential regulation of JunB and JunD by adenovirus type 5 and 12 E1A proteins. 183 51

Type beta transforming growth factors represent a family of polypeptides that modulate growth and differentiation. TGF-beta exerts its effects on target cells through interaction with specific cell surface receptors, but the signal transduction pathways are largely unresolved as yet. In this study we report that TGF-beta 1 induces a rapid phosphorylation of the cyclic AMP responsive element binding protein (CREB) in mink lung CCl64 cells. Phosphorylation induced by TGF-beta 1 is not mediated by the cAMP-dependent protein kinase. Parallel to the increase in phosphorylation of CREB, an increase in binding to the collagenase TPA responsive element was observed. CREB participates in the binding to this element, probably as a heterodimer with another as yet unknown protein. The modification imposed on CREB and its involvement in an enhanced TRE-binding could be a mechanism by which TGF-beta 1 induces the TRE-mediated transcriptional activation.
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PMID:TGF-beta 1 induces phosphorylation of the cyclic AMP responsive element binding protein in ML-CCl64 cells. 185 Jun 93

Calcium- and phospholipid-dependent protein kinase (protein kinase C; PKC) may be an important mediator in transduction of some of the cellular actions of insulin. We studied PKC activity in freshly isolated circulating mononuclear cells obtained from healthy subjects and patients with non-insulin-dependent (type II) diabetes mellitus (NIDDM). The kinase activity was measured using a specific nonapeptide substrate, Ala-Ala-Ala-Ser-Phe-Lys-Ala-Lys-Lys-amide. There was negligible calcium- and phospholipid-independent kinase activity in cytosolic and particulate fractions of cells from both control and diabetic subjects. Total (cytosolic and particulate) PKC activity of mononuclear cells from poorly controlled diabetic patients was significantly reduced compared with controls; this reduction was mainly due to a decrease in the cytosolic kinase activity. Tumor-promoting phorbol ester (TPA, 0.1 mumol/L) induced translocation of PKC activity in control cells; in contrast, this subcellular redistribution was not observed in cells from a majority of poorly controlled diabetic subjects. Increased calcium influx into the cells caused by the calcium ionophore A23187-triggered translocation of PKC activity in control cells, while it was ineffective in cells from poorly controlled diabetic patients. Cells from well-controlled diabetic patients demonstrated TPA-induced translocation of the PKC activity approaching that of control cells. The total PKC activity in cells from patients with good glycemic control was normal. Impaired activation of PKC is thus associated with the insulin resistance found in patients with poorly controlled NIDDM.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Impaired translocation of protein kinase C activity in human non-insulin-dependent diabetes mellitus. 186 31

Recent molecular cloning and biochemical experiments on the nature of protein kinase C (PKC) have revealed the existence of two distinct classes of phorbol ester (and diacylglycerol) receptor/protein kinase, conventional PKC (cPKC) and novel PKC (nPKC). Each of these classes contains multiple related molecules expressed in tissues and cells in a type-specific manner. Although nPKC does not show the typical PKC activity ascribable to conventional PKCs and thus was neglected in earlier studies, several lines of evidence suggest that nPKCs are involved in a variety of cell responses to physiological stimuli and phorbol esters. It is possible that in some cases nPKC is the major mediator of the so-called PKC-activators, such as phorbol esters, mezerein, and bryostatins. In addition to the clear difference between cPKC and nPKC, functional diversity among conventional PKCs has also been demonstrated; PKC gamma differs in its competence to mediate the signal toward transcriptional activation through TPA-responsive cis-acting elements from cPKC alpha and nPKC epsilon. The differences between cPKC and nPKC and among the individual members of each of these two classes, and their specific pattern of distribution in tissues and cells, provide a rationale by which to explain the specificity and diversity of cellular responses to external stimuli generating DAG and to phorbol esters. The results presented here also provide a means to dissect the complex signaling pathway in cells and to analyze the molecular basis underlying the signal transduction processes mediated by this family of protein kinases.
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PMID:Structural and functional diversities of a family of signal transducing protein kinases, protein kinase C family; two distinct classes of PKC, conventional cPKC and novel nPKC. 187 91

In dog thyroid cell primary cultures the prolonged presence (up to 4-6 days) of TSH induced down regulation of the isoenzyme I (PKA I) of cAMP-dependent protein kinases. In the simultaneous presence of TSH and EGF this down regulation of PKA I was maintained, although it was slightly smaller than in assays without EGF. In contrast, the simultaneous presence of TPA, totally inhibited the TSH induced down regulation of PKA I. These results partly explain the previously observed additivity of TSH and EGF, and the non-additivity of TSH and TPA actions on cell proliferation in these cells.
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PMID:Epidermal growth factor and phorbol ester actions on the TSH induced down regulation of the isoenzyme I (PKA I) of cyclic AMP-dependent protein kinases in dog thyroid cell primary cultures. 187 89

Transcription factor AP-1 is inducible by phorbol esters and thus could be considered to be one final target of the protein kinase C signal transduction pathway. AP-1 consists of the products of the fos and jun oncogenes, which associate as dimers to bind TPA-responsive promoter elements (TRE) efficiently. We show that AP-1 activity is modulated by an inhibitory protein (IP-1), present both in the nucleus and cytoplasm of several cell types. IP-1 specifically blocks DNA binding of AP-1 from nuclear extracts and of in vitro synthesized Fos/Jun proteins. It is a labile protein of 30-40 kd, which exerts its activity only in the nonphosphorylated form. Block of IP-1 function is obtained by PKA-mediated phosphorylation, possibly suggesting a cross talk mechanism at transcriptional level. Competition experiments with synthetic peptides suggest that IP-1 could interact with Fos and/or Jun leucine zippers. We speculate that IP-1 might act as a transcriptional antioncogene.
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PMID:IP-1: a dominant inhibitor of Fos/Jun whose activity is modulated by phosphorylation. 190 Apr 58

Prosolin is a major cytosolic phosphoprotein expressed prominently in rapidly proliferating human peripheral lymphocytes but produced at very low levels in resting (G0) PBL. It undergoes rapid phosphorylation upon treatment of growing cells with tumor-producing phorbol esters (TPA) and this phosphorylation event is correlated with a rapid down-regulation of DNA synthesis. In the present report we have studied various agents that, like TPA, act as partial or complete mitogens for G0 PBL and have determined their effect on phosphorylation of prosolin and on DNA synthesis in rapidly proliferating (IL-2-dependent) human PBL. Agents that activate the TCR (OKT3 and PHA), as well as agents that by-pass the receptor but activate biochemical pathways associated with TCR activation (TPA and Ca2(+)-ionophore), all produced rapid phosphorylation of prosolin and prompt down-regulation of DNA synthesis. Four phosphorylated forms of prosolin were produced, indicating activation of a complex phosphorylation pathway. Down-regulation of DNA synthesis did not lead to cell death or to permanent arrest, but was reversed after 24 to 48 h, and was not associated with any reduction in overall protein synthesis. Agents that bind to determinants closely connected to the TCR but without activating it (OKT4 and OKT8) had no effect on either prosolin phosphorylation or DNA synthesis. The results indicate that prosolin is an early target of the protein kinase activities induced by activation of the TCR in proliferating PBL, and suggest that its phosphorylation mediates the TCR signal, transmitting it into a biochemical pathway leading specifically to down-regulation of DNA synthesis. In G0 PBL, in which the negligible expression of prosolin precludes significant production of phosphorylated species, this inhibitory pathway is effectively blocked.
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PMID:T cell receptor activation induces rapid phosphorylation of prosolin, which mediates down-regulation of DNA synthesis in proliferating peripheral lymphocytes. 190 11

Dexamethasone (a synthetic glucocorticoid) inhibited the entry into the S-phase of quiescent chemically transformed mouse fibroblasts (BP-A31) stimulated with 12-O-tetradecanoyl 13-acetate (TPA; a protein kinase-C activator) or with basic fibroblast growth factor. The basal rate of DNA synthesis was also strongly reduced by dexamethasone. In contrast, the mitogenic activity of insulin (acting via the insulin-like growth factor-I receptor) was little or not at all affected by dexamethasone. The antimitogenic activity of dexamethasone was enhanced when the steroid was included in the culture medium 24 h before the addition of mitogens. The effects of dexamethasone were glucocorticoid specific, partially reversed by the antiglucocorticoid RU 486, and prevented by cycloheximide (suggesting the involvement of glucocorticoid-induced protein synthesis in the antimitogenic activity of dexamethasone). Under the conditions of exponential growth in serum-free medium as well as in the presence of TPA, dexamethasone arrested the proliferation of sparsely seeded cells after a delay of 24-48 h. The BP-A31 cells are known to be constitutively competent and express at quiescence certain genes related to the G0/G1 transition in the original nontransformed A31 cell line. Of the transcripts corresponding to these genes, dexamethasone caused a rapid elimination of the JE mRNA, coding for a protein of the family of cytokines. The cell content of c-jun mRNA was also strongly reduced in the cells incubated at quiescence with dexamethasone (in the absence of mitogen). The presence of TPA along with dexamethasone prevented the elimination of c-jun, but not of JE mRNA. Short (30-min; together with the inducers) or long (24-h) treatment of the cells with dexamethasone did not prevent the induction of the c-fos gene expression by either TPA or basic fibroblast growth factor, indicating that dexamethasone does not interfere with mitogenic signal transduction. We conclude that in TPA-stimulated cells, the antiproliferative effect of dexamethasone is not due to interference with the expression of the c-jun gene, but may be related to the decreased level of the JE cytokine mRNA as well as to the synthesis of growth inhibitory protein(s).
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PMID:Antimitogenic effects of dexamethasone in chemically transformed mouse fibroblasts. 190 2

An antiserum raised against an epsilon PKC-specific peptide recognizes epsilon PKC with an apparent molecular weight of 97 kDa in cytosol of mouse brain. No cross-reaction with alpha, beta, gamma PKC or the delta PKC-like p76-kinase is observed. Epsilon PKC is mainly present in brain. Just traces of this PKC isoenzyme can be detected in some other murine tissues. Ontogenetic studies indicate that the amount of epsilon PKC in murine brain increases constantly and reaches a maximal level at day 7 after birth. Upon TPA activation epsilon PKC is translocated from the cytosol to the particulate fraction in a brain homogenate.
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PMID:Immunological demonstration of epsilon PKC. Murine tissue distribution, ontogeny, cellular localization and translocation. 191 61

Phorbol ester-induced translocation of the calcium/phospholipid-dependent protein kinase, protein kinase C (PKC), from soluble to particulate cell fractions was inhibited in primary cultures of hepatocytes isolated from rats chronically exposed to the liver tumor promoter phenobarbital (PB). Inhibition of translocation (34%) was significant after a 15-min treatment with 12-O-tetradecanoylphorbol-13-acetate (TPA, 500 nM); an 85% inhibition was observed after 60 min. In contrast, the translocation responses to two non-phorbol ester activators of PKC, ATP (1 mM) and arginine-vasopressin (0.1 microM), were not significantly impaired. Assessment of total PKC specific activity revealed that translocation induced by TPA and the two nonphorbol activators was not associated with PKC degradation in hepatocytes from either control or PB-exposed rats. The defect in TPA-induced translocation was correlated with an impaired down-regulation of the hepatocyte surface receptor for epidermal growth factor in hepatocytes from PB-exposed rats. Chronic exposure to PB did not affect the total content or specific activity of PKC in whole liver, nor did it affect the distribution of PKC activity between soluble and particulate fractions in unstimulated liver or hepatocytes. However, both the diminished epidermal growth factor receptor response and the inhibition of TPA-induced PKC translocation were reversed by withdrawal of PB for 2 to 4 weeks. Hepatocytes isolated from female rats were found to contain a 3- to 4-fold greater PKC specific activity and content than hepatocytes from male rats. However, no sex-related differences were observed in PKC distribution or in the modulation of translocation by chronic PB exposure and withdrawal. Immunoblotting of partially purified liver extracts revealed that the defect in phorbol ester-induced translocation was not caused by altered expression of PKC isozymes. PKC isozymes II and III, but not I, were detected, and their amounts were unaffected by PB exposure, although higher levels were detected in female relative to male livers. These data demonstrate reversible inhibition of phorbol ester-induced PKC activation by the liver tumor promoter, PB, and suggest that PB alters a component of the PKC-signaling pathway other than the expression of PKC isozymes.
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PMID:Reversible and phorbol ester-specific defect of protein kinase C translocation in hepatocytes isolated from phenobarbital-treated rats. 198 78

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