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)

Human Platelet Derived Growth Factors (PDGF) are potent mitogens for mesenchymal cells and encoded by two related genes, the A- (or 1-) and B- (or 2-) chain. The latter is known as the human homolog (c-sis) of the v-sis oncogene. We investigated the expression and cytokine-mediated regulation of PDGF A- and B-chain mRNA in endoderm-derived cells, i.e. cultured human pancreatic adenocarcinoma cells. Northern blot analysis revealed that out of 14 cells lines 11 were positive for the A-chain and 10 for the B-chain. Tumor Necrosis Factor (TNF) -alpha and -beta, but not Interferon (IFN) -gamma, drastically upregulate the mRNA levels for PDGF B-chain and for the A-chain in a dose-dependent manner in nearly every pancreatic tumor cell line investigated (n = 6). With respect to the signal pathway stimulated by TNF, no evidence emerged for an activation of protein kinase A. The inhibition of protein kinase C by staurosporine (in the absence or presence of TNF) as well as its stimulation by PMA resulted in an increased mRNA level for the B-chain, indicating a functional role of PKC in this system. Furthermore, time course experiments and Cycloheximide treatment showed that the A- and B-chain mRNA are regulated by different mechanisms in transformed epithelial cells. Irrespective of these differences, the sum of their biological functions may contribute to the phenomenon of desmoplasia in pancreatic tumors by epithelial/mesenchymal interactions.
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PMID:Modulation of platelet-derived growth factor A- and B-chain/c-sis mRNA by tumor necrosis factor and other agents in adenocarcinoma cells. 190 54

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

Leukemia inhibitory factor (LIF) and interleukin-6 (IL-6), two multifunctional cytokines lacking structural homology and binding to distinct receptors, share interesting functional similarities, which include induction of hematopoietic differentiation in normal and myeloid leukemia cells, induction of neuronal cell differentiation, and stimulation of acute-phase protein synthesis in hepatocytes. Structural information on the LIF receptor is not yet available, whereas recent cloning of the IL-6 receptor has shown it to be bipartite, with a signal-transducing subunit that lacks sequence homology to known protein kinases and produces second messengers of unknown nature. The molecular nature of the mechanisms which LIF and IL-6 use to induce cell differentiation is not known. To address this issue, we took advantage of a clone of M1 myeloblastic leukemia cells capable of being induced for terminal differentiation by both LIF and IL-6 directly activate the same set of immediate early response genes upon induction of M1 myeloid differentiation. At least two mechanisms of gene activation, one transcriptional and the other posttranscriptional, are shown to be involved. It is also shown that the LIF and IL-6 immediate early response, at suboptimal cytokine concentrations, is additive. Using a variety of protein kinase activators and inhibitors, we have shown that the intracellular signalling pathways for both LIF and IL-6 are distinct from those of known second messengers and involve protein phosphorylation, notably tyrosine phosphorylation of a 160-kDa protein, as an essential step(s) in the immediate early activation of MyD gene expression. These observations indicate that the functional similarities of LIF and IL-6 as inducers of cell differentiation prevail at the level of the complex differentiation immediate early response and implicate common mechanisms of signal transduction for LIF- and IL-6-induced differentiation.
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PMID:Leukemia inhibitory factor and interleukin-6 trigger the same immediate early response, including tyrosine phosphorylation, upon induction of myeloid leukemia differentiation. 190 51

Protein phosphorylation is central to multiple regulatory processes in cells. Tumor necrosis factor (TNF), a cytokine synthesized by macrophages, effects polymorphonuclear leukocyte (neutrophil) chemotaxis, induces superoxide anion generation, and mediates neutrophil adhesion to endothelial cells. Although protein phosphorylation is almost certainly involved in many TNF-mediated neutrophil functions, little is known about TNF's impact on neutrophil protein phosphorylation. Therefore, we studied human recombinant TNF-alpha-induced protein phosphorylation in human neutrophils. Neutrophils were preincubated with 32PO(4)2- and treated with a variety of stimulatory agents. One- and two-dimensional polyacrylamide gel electrophoresis was used to analyze phosphorylated proteins. Phosphoaminoacids were identified by two-dimensional thin layer chromatography electrophoresis. The findings were as follows: (1) TNF induces the phosphorylation of two 16-kD proteins (pI = 5.9 and 6.1) by 5- to 6-fold, and a 57-kD protein (pI = 5.8) by 3- to 4-fold compared with untreated neutrophils; (2) these proteins are phosphorylated as early as 15 min after stimulation with TNF, and phosphorylation is induced by concentrations of TNF as low as 1 ng/ml (10 U/ml); (3) TNF induces the phosphorylation of proteins at either serine or threonine residues and not at tyrosine; (4) TNF-stimulated neutrophils show a unique pattern of protein phosphorylation when compared to neutrophils treated with formylmethionylleucylphenylalanine; (5) lipopolysaccharide does not induce protein phosphorylation in neutrophils; (6) a 16-kD protein is phosphorylated in response to TNF in neutrophils but not in mononuclear cells; and (7) protein kinase inhibitors appear to have no effect on TNF-induced protein phosphorylation. Thus, the mechanism of action of TNF on neutrophils may involve protein phosphorylation.
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PMID:Tumor necrosis factor-induced protein phosphorylation in human neutrophils. 191 Aug 14

Cytokines are soluble informational polypeptides which modulate cellular functions by combining with specific membrane receptors in the originating cell (autocrine), a regional cell (paracrine) or a distant cell (endocrine). Cytokine-receptor complexes usually initiate signal transduction via protein kinase phosphorylation or G-protein dependent phospholinositol changes which further alter cell function. In the exuberant fibrosis of scleroderma, fibroblasts are activated to secrete several extracellular matrix molecules (collagens, fibronectin, proteoglycans) and they also fail to respond to the usual cell growth signals in vitro. We have studied the hypothesis that cytokines released through the T-cell dependent activation/injury of the vascular and microvascular endothelium initiate activation of the scleroderma fibroblast. Recalling that cell activation can occur either by removal of suppression or direct activation and that the locus of action can be transcriptional, translational or post-translational or a combination of these, our studies have focused on the cytokine transforming growth factor beta (TGF-beta) family of molecules, on the matrix gene expression abnormality of the scleroderma fibroblast and on the activation by TGF-beta of the platelet derived growth factor (PDGF) family of cytokines to explain the persistent cell growth abnormality. Our findings include: 1. Scleroderma fibroblasts are equally responsive to TGF-beta as are healthy fibroblasts with regard to collagen synthesis and they bind TGF-beta in all parameters similar to the binding to healthy fibroblasts. 2. TGF-beta is a stronger mitogenic signal to scleroderma fibroblasts than to control fibroblasts in the presence of serum.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cytokines and human fibrosis. 196 52

There is growing evidence that keratinocyte (KC) intercellular adhesion molecule-I (ICAM-I) expression is involved in the epidermal trafficking of T lymphocytes. To further characterize the molecular basis of KC ICAM-I expression, the detailed kinetics of induction by gamma interferon (IFN-gamma), as well as the phorbol ester, 12-O tetradecanoylphorbol-13-acetate (TPA), were studied. This study reports that KCs express both the class II major histocompatibility antigen (HLA-DR) and ICAM-I in response to IFN-gamma, although the response is distinctive for each molecule. Also, TPA induces ICAM-I, but not HLA-DR expression, whilst the protein kinase inhibitor, H7, blocks the TPA, but not the IFN-gamma-mediated response. The results provide a molecular basis whereby non-cytokine-mediated stimuli (e.g. TPA) alter KC signal transduction events involving protein kinase-C (PK-C) and thereby generate such immunologically relevant events as ICAM-I expression. Thus, KCs may be targets for both T-cell derived cytokines (e.g. IFN-gamma), and non-cytokine TPA-like molecules which stimulate PK-C. Induction of ICAM-I by either mechanism would be capable of instigating intraepidermal T-cell trafficking.
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PMID:Differential modulation of keratinocyte intercellular adhesion molecule-I expression by gamma interferon and phorbol ester: evidence for involvement of protein kinase C signal transduction. 196 46

IL-1 treatment of human endothelial cells leads to the rapid phosphorylation of a Mr = 29,000 (P29) set of proteins to 18 times that of control cultures. Approximately 80% of the phosphorylated P29 (pP29) disappeared within 60 min although the remaining component was stable and remained for at least another 2 h. IL-1R antagonist protein blocked phosphorylation completely. Secondary treatment of IL-1 failed to increase the level of pP29 above that remaining after 1 h although other unrelated agonists that stimulated pP29 generation could. Removal of the cytokine and incubation of the cells in agonist-free medium for 2 h resulted in the total loss of the remaining pP29. Readdition of IL-1 2 h after washout restimulated P29 phosphorylation but only back to the lower level. Maximum rephosphorylation could not be attained until 16 h after IL-1 removal. Protein kinase inhibitors 1-(5-isoquinolinylsulfonyl)-2-methylpiperazine and staurosporine, the calcium chelators bis(2-amino-5-methylphenoxy)ethane-N,N,N',N'-tetraacetic acid tetraacetoxymethyl ester and EGTA, and the calmodulin inhibitor N-(6-aminohexyl)-1-naphthalene-sulfonamide had no effect on IL-I-induced phosphorylation. However, when cultures were treated with the protein phosphatase inhibitor okadaic acid alone, the level of pP29 increased after 1 h and the presence of okadaic acid during prolonged IL-1 treatment blocked the decline in pP29. The protein synthesis inhibitors puromycin, emetine, and cycloheximide also blocked the decline in pP29 during IL-1 treatment. These data suggest that IL-1-stimulated P29 phosphorylation is made up of two components, one susceptible to prolonged down-regulation even in the absence of the cytokine and one refractory to desensitization but that remains active only in the presence of IL-1. IL-1-induced changes in pP29 levels may be dependent on the relative activities of protein kinase and protein phosphatase activities.
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PMID:Phosphorylation of an Mr = 29,000 protein by IL-1 is susceptible to partial down-regulation after endothelial cell activation. 203 50

Previous work has shown that prolonged pretreatment of a mouse anterior pituitary cell line, AtT-20 cells, with the cytokine interleukin 1 (IL-1) stimulates beta-endorphin release and potentiates the secretion induced by many secretagogues. Desensitization of protein kinase C (PKC) by pretreatment with phorbol ester [phorbol 12-tetradecanoate 13-acetate (TPA)] for 8 hr abolished the secretion induced by TPA as well as the enhancement of TPA-induced beta-endorphin release produced by IL-1. Desensitization of PKC only partly abolished the potentiating effects of IL-1 on corticotropin-releasing factor-induced beta-endorphin secretion. In contrast, IL-1-induced beta-endorphin release was independent of PKC. We observed that treatment of AtT-20 cells with IL-1 markedly phosphorylated 19-, 20-, and 60-kDa proteins within minutes, presumably by early activation of protein kinases. Prolonged treatment with TPA, which was shown to desensitize an 87-kDa protein (a substrate for PKC), had no effect on IL-1-induced phosphorylation of 20-, 60-, and 87-kDa proteins, indicating that the phosphorylation of these proteins does not involve PKC. IL-1 does not generate cAMP in AtT-20 cells, suggesting that a cAMP-dependent protein kinase is also not involved. Prolonged treatment with IL-1 abolishes the capacity of cytokine to induce the phosphorylation of 20- and 60-kDa proteins. The presence of IL-1 was required initially only for a short time to induce late secretion in AtT-20 cells. These observations indicate that once IL-1 generates an early signal, its presence is no longer necessary for the subsequent secretion of beta-endorphin.
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PMID:Interleukin 1 induces early protein phosphorylation and requires only a short exposure for late induced secretion of beta-endorphin in a mouse pituitary cell line. 215 4

The G0S19 genes are members of the "small inducible" family of genes, which have similar exon-intron organizations and encode secreted proteins with similar dispositions of cysteine and proline residues. G0S19-1 mRNA is increased shortly after the addition of lectin or cycloheximide to cultured human blood mononuclear cells. The cDNA sequence is homologous to that of a murine gene encoding an inhibitory cytokine (MIP1 alpha/SCI), which decreases hemopoietic stem cell proliferation. The homology extends to the 3' noncoding region, which contains two conserved elements: (i) GGGACTCTTC, a potential transcription factor NF chi B-binding site, and (ii) TTTTGTAATTTATTTT, which is found in some related genes (e.g., that encoding the immediate early protein ornithine decarboxylase). A similar but complementary sequence is present in human immunodeficiency virus. Two of the three human genes that hybridize to G0S19-1 cDNA were sequenced. G0S19-1 has 5' AP1-like recognition elements as found in some other phorbol ester-responsive genes (e.g., c-fos). G0S19-2 has a 5' Alu sequence, but is likely to be expressed because of the conservation of sections of the gene believed to be important for function. The 5' flanks of both genes contain the nucleotide motifs CK-2 and SRE, indicating cytokine-like genes with the potential to respond to growth factors. G0S19-1 is the main G0S19 gene expressed in adult T lymphocytes and may encode a homeostatic negative regulator of the size of cell populations (or subpopulations) which are derived ultimately from marrow stem cells. As such, it is a potential antioncogene.
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PMID:Three human homologs of a murine gene encoding an inhibitor of stem cell proliferation. 227 Nov 20

Infection of astrocytes with Newcastle disease virus stimulated the production of 1,2-diacylglycerol, and resulted in the kinase-dependent expression of mRNAs encoding tumor necrosis factor (TNF), interferon alpha and beta, and interleukin 6. The half-life of TNF mRNA was significantly decreased in the presence of protein kinase inhibitors H-7 and staurosporine, but not in the presence of HA1004. In contrast to the decay of TNF mRNA, the half-lives of other cytokine mRNAs were only minimally affected by the kinase inhibitors. These data indicated that the stability of TNF mRNA was regulated through a novel, kinase-dependent pathway.
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PMID:Protein kinase regulates tumor necrosis factor mRNA stability in virus-stimulated astrocytes. 238 40


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