Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Potent activators of protein kinase C (PKC), such as phorbol dibutyrate and octylindolactam V, stimulated expression of intercellular adhesion molecule 1 (ICAM-1) by human umbilical vein endothelial cells (HUVEC) in a concentration-dependent manner. Expression of PKC activator-induced ICAM-1 in HUVEC was inhibited by the PKC inhibitor, H-7. Furthermore, cytokine (TNF alpha, LPS)-induced ICAM-1 expression was inhibited by the potent PKC inhibitor, H-7, and not by the cAMP-dependent protein kinase (PKA) specific inhibitor, H-89. These data suggest that PKC is involved in cytokine- and inflammatory agent-induced upregulation of ICAM-1 expression in HUVEC.
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PMID:Evidence for involvement of protein kinase C in expression of intracellular adhesion molecule-1 (ICAM-1) by human vascular endothelial cells. 790 44

Two interferon (IFN) alpha-regulated genes, IRF1/ISGF2 and PKR/p68 kinase, may function as tumor suppressor genes suggesting that the IFN system may function as a tumor suppressor system. We report that the expression of the alpha subunit of the type I IFN receptor in human K-562 cells had anti-oncogenic effects that include a marked decrease in: (i) cell proliferation rate, (ii) the cell density at which growth arrest normally occurs, and (iii) the tumorigenicity in nude mice. Furthermore, expression of the alpha subunit in K-562 cells induced erythroid differentiation. While most cytokine receptors become activated after binding their corresponding ligands, the overexpression of the alpha subunit has a physiological effect in the absence of its natural ligand, type I IFNs, suggesting a novel function for this type I IFN receptor subunit. The anti-oncogenic effect of the alpha subunit is mediated by a pathway that does not involve two tumor suppressor genes induced by type I IFNs, the transcriptional regulator IFN response factor-1 and the RNA-dependent protein kinase, or the p135tyk2 tyrosine kinase that directly associates and phosphorylates the alpha subunit.
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PMID:Ligand-independent anti-oncogenic activity of the alpha subunit of the type I interferon receptor. 796 37

Control of osteoblast growth and development can be characterized from receptor mediated events to nuclear messengers controlling gene transcription. From this analysis it is possible to formulate a model to explain the reciprocal relationship between growth and differentiation as well as differential cytokine modulation of osteoblast function. Central to this model are putative tissue specific transcriptional switches (possibly of the bHLH gene superfamily) that may repress proliferation and permit the regulation of mature osteoblast phenotypic characteristics. This model proposes that in post-mitotic differentiated osteoblasts, tissue specific transcription factors determine the capacity to express osteoblastic characteristic, whereas receptor activated signalling cascades, namely, cAMP/protein kinase A, receptor serine/threonine kinase, and vitamin D receptor-dependent pathways, regulate mature osteoblast-specific gene expression. Activated differentiation switches also may feedback to transcriptionally repress proliferation. Conversely, in preosteoblasts, in which differentiation switches are turned off, distinct signalling cascades involving tyrosine kinases, PKC, and calcium/calmodulin regulate proliferation. Proliferating preosteoblasts also exhibit negative modulation of maturation either through inactivation of putative tissue-specific transcription factors and/or through AP-1 dependent phenotype suppression of genes expressed in mature osteoblast. Thus, the final outcome of transcriptional regulation of osteoblast function results from complex interactions between signalling pathways and permissive differentiating transcription factors. Though many aspects of this model remain speculative and require confirmation, it serves as a useful conceptual framework to further investigate the differential control of osteoblast proliferation and differentiation that may lead to improved pharmacologic ways to manipulate bone formation in vivo.
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PMID:Molecular to pharmacologic control of osteoblast proliferation and differentiation. 796 62

Histamine mediates its effects via histamine receptors and by participating in a multicellular cytokine cascade. IL-11 is a stromal cell-derived cytokine with biologic activities that overlap with IL-6. To further understand the biology of histamine and IL-11, we determined whether histamine regulates the production of IL-11 by human lung fibroblasts. Histamine was a weak stimulator of IL-11 production. Importantly, it also interacted in a synergistic fashion with TGF-beta 1 to further augment IL-11 protein production and mRNA accumulation. This synergistic interaction was not altered by the H2 receptor antagonist cimetidine and could not be reproduced with the H2 receptor agonist 4-methylhistamine. In addition, it was not abrogated by the cyclic nucleotide-dependent protein kinase inhibitor N-(2-1-guanidinoethyl)-5 isoquinolinesulfonamide hydrochloride), and histamine and TGF-beta 1 did not stimulate intracellular cAMP. In contrast, the synergy was abrogated by the H1 histamine receptor antagonists diphenhydramine and pyrilamine, could be reproduced when histamine was replaced with the H1 agonist 2-methylhistamine, and was abrogated by the calmodulin antagonists N-(6-aminohexyl)-1-napthalenesulfonamide), N-(6-aminohexyl)-5-chloro-1-napthalenesulfonamide), and trifluoperazine dichloride and by the intracellular calcium chelator 1,2-bis-(2-amino-5-bromo-phenoxy)ethane-N,N,N',N'-tetraacetic acid, tetra(acetoxymethyl)-ester. In addition, although TGF-beta 1 did not alter cytosolic Ca2+, histamine caused a biphasic increase in cytosolic Ca2+, and the majority of cells incubated with TGF-beta 1 plus histamine exhibited sustained Ca2+ oscillations. These studies demonstrate that histamine is an important regulator of fibroblast IL-11 production, that histamine interacts with TGF-beta 1 in the induction of this cytokine, and that this interaction is mediated, to a great extent, by a pretranslational mechanism that is dependent on H1 receptors and a calcium/calmodulin-dependent activation pathway.
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PMID:Histamine augments cytokine-stimulated IL-11 production by human lung fibroblasts. 796 41

We have identified in rabbits two hepatic forms of T669 peptide kinases that are very strongly activated after systemic injection with the inflammatory cytokine interleukin 1 (IL-1). The T669 peptide contains a major phosphorylation site of the epidermal growth factor receptor, threonine 699 and is a substrate for mitogen-activated protein (MAP) kinases. The kinases were purified to homogeneity and corresponded to 50- and 55-kD proteins on sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Amino acid sequencing of 12 tryptic peptides of both kinases identified them as p54 MAP kinase alpha. This kinase belongs to the novel family of stress-activated protein kinases. This is the first evidence of IL-1 activating a specific protein kinase in vivo.
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PMID:Interleukin 1 alpha activates two forms of p54 alpha mitogen-activated protein kinase in rabbit liver. 796 79

Recent studies indicate that nitric oxide (NO) and guanosine 3',5'-cyclic monophosphate (cGMP) may inhibit the proliferation of vascular smooth muscle cells (SMC) in vitro. The purpose of this study was to investigate the mechanism of NO- and cGMP-dependent inhibition of cultured rat aortic SMC. The cytokine interleukin-1 beta (IL-1 beta) inhibited serum- and platelet-derived growth factor-stimulated [3H]thymidine incorporation into DNA in subcultured rat aortic SMC. Incubation with IL-1 beta for 24 h markedly increased cGMP levels but not adenosine 3',5'-cyclic monophosphate (cAMP) levels. However, the IL-1 beta-induced increase in cGMP was correlated with an activation of the cAMP-dependent protein kinase (cAMP kinase) activity ratio. The activation of the cAMP kinase was prevented by treatments that blocked NO and cGMP production. The NO-generating vasodilator, S-nitroso-N-acetylpenicillamine (SNAP) also inhibited DNA synthesis and elevated cGMP levels. The inhibition of DNA synthesis by both IL-1 beta and SNAP was observed only when cGMP levels were elevated to high levels (10-fold or more). As was the case for IL-1 beta, SNAP increased the activity ratio of cAMP kinase. Selective inhibition of cAMP kinase using (R)-p-bromoadenosine 3',5'-cyclic monophosphorothioate prevented the inhibition of proliferation by IL-1 beta. By contrast, the inhibitor of the cGMP-dependent protein kinase, (R)-p-bromoguanosine 3',5'-cyclic monophosphorothioate, had no effect on IL-1 beta-induced inhibition of cellular proliferation. These studies suggest that cGMP-dependent activation of the cAMP kinase may be responsible in part at least for the NO-dependent inhibition of proliferation of subcultured rat aortic SMC.
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PMID:Inhibition of smooth muscle cell growth by nitric oxide and activation of cAMP-dependent protein kinase by cGMP. 797 1

Human gingival fibroblasts were treated with recombinant interleukin-1 (IL-1) to determine the effect of this stimulus on the relative expression of collagenase (MMP-1), stromelysin (MMP-3) and plasminogen activator (PA) mRNA. The steady-state mRNA levels for these genes were determined on Northern blots. IL-1 induced steady-state levels of these mRNAs to different extents. Nuclear run-on transcription studies showed that IL-1 induction of neutral metalloproteinase may be transcriptionally regulated. Actinomycin D and protein kinase inhibitors decreased the mRNA production for all three metalloproteinases, whereas cycloheximide decreased the production of collagenase and stromelysin mRNA. Protein kinase inhibitors (H7/H8) decreased production of the three mRNAs to different extents. This study demonstrates a potentially important role for IL-1 in the regulation of metalloproteinase expression in human gingival fibroblasts. The ability of IL-1 to induce the expression of stromelysin, collagenase and PA may define a pivotal role for this cytokine in the pathogenesis of periodontitis.
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PMID:Mechanistic features associated with induction of metalloproteinases in human gingival fibroblasts by interleukin-1. 798 Jan 14

Bacterial LPS is a potent macrophage activator. The early steps in LPS signal transduction involve the tyrosine phosphorylation and activation of a number of kinases of the src family, and inhibition of this pathway causes a severe impairment in the production of the cytokines TNF-alpha and IL-1 beta. We find that LPS-induced macrophages activation also involves the Raf-1 kinase, a key component in mitogenic signal transduction. Treatment of BAC-1.2F5 macrophages with LPS causes phosphorylation and activation of Raf-1. This is paralleled by the stimulation of MEK-1 and MAP-kinase activity and by the phosphorylation of the transcription factor Elk-1, a nuclear target of MAP-kinase. Activation of the Raf/MAP-kinase pathway was inhibited upon pretreatment of the cells with genistein, a tyrosine kinase inhibitor. Raf-1 must thus lie downstream of tyrosine kinase in LPS signal transduction. However, Raf-1 is not a direct substrate of a LPS-induced tyrosine kinase, because Raf-1 immunoisolated from LPS-induced cells contains only phosphoserine. This resembles the situation after CSF-1-stimulation of macrophages, in which Raf-1 clearly transduces a signal generated by the CSF-1 receptor kinase, but is phosphorylated exclusively in serine. Phosphopeptide maps of Raf-1 immunoprecipitated from LPS- or CSF-1-treated cells are indistinguishable, suggesting that these agents activate Raf-1 by similar mechanisms. Finally, v-raf-infected BAC-1.2F5 macrophages were found to constitutively express low levels of IL-1 beta and TNF-alpha. These data argue that Raf-1 functions downstream of tyrosine kinases in LPS-mediated macrophage activation and cytokine production.
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PMID:Lipopolysaccharide induces activation of the Raf-1/MAP kinase pathway. A putative role for Raf-1 in the induction of the IL-1 beta and the TNF-alpha genes. 798 71

The high-affinity receptor for granulocyte-macrophage colony-stimulating factor (GM-CSF) consists of a unique alpha chain and a beta c subunit that is shared with the receptors for interleukin-3 (IL-3) and IL-5. Two regions of the beta c chain have been defined; these include a membrane-proximal region of the cytoplasmic domain that is required for mitogenesis and a membrane-distal region that is required for activation of Ras, Raf-1, mitogen-activated protein kinase, and S6 kinase. Recent studies have implicated the cytoplasmic protein tyrosine kinase JAK2 in signalling through a number of the cytokine receptors, including the IL-3 and erythropoietin receptors. In the studies described here, we demonstrate that GM-CSF stimulation of cells induces the tyrosine phosphorylation of JAK2 and activates its in vitro kinase activity. Mutational analysis of the beta c chain demonstrates that only the membrane-proximal 62 amino acids of the cytosolic domain are required for JAK2 activation. Thus, JAK2 activation is correlated with induction of mitogenesis but does not, alone, activate the Ras pathway. Carboxyl truncations of the alpha chain, which inactivate the receptor for mitogenesis, are unable to mediate GM-CSF-induced JAK2 activation. Using baculovirus-expressed proteins, we further demonstrate that JAK2 physically associates with the beta c chain but not with the alpha chain. Together, the results further support the hypothesis that the JAK family of kinase are critical to coupling cytokine binding to tyrosine phosphorylation and ultimately mitogenesis.
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PMID:JAK2 associates with the beta c chain of the receptor for granulocyte-macrophage colony-stimulating factor, and its activation requires the membrane-proximal region. 800 42

Two-dimensional (2-D) gel electrophoresis has been used to map proteins from various cell types in an effort to eventually link such maps to the sequencing of the entire human genome. While this analysis indicates the cellular disposition and expression of proteins, another application of 2-D gels, the analysis of phosphoproteins, can provide much information as to the assembly and "wiring" of the signal transduction circuits within cells which appear to be enervated by phosphate exchange. The preparation and separation of 32P-labeled proteins is described, as well as various analytical methods, including: the variety of gel systems available for specialist types of analyses, comparing 33P- and 32P-labeling of proteins, imaging techniques, phosphoamino analysis, phosphopeptide separation, identifying the amino acid groups that are phosphorylated, and the identification of phosphoproteins on 2-D gels by immunoprecipitation, corunning of purified proteins, comparative mapping and microsequencing, and by Western blotting. Examples (in brackets) are given of applications in which 2-D phosphogels can be applied, which offer advantages over other techniques. These include: (i) identifying in vivo substrates for kinases (protein kinase C activated by phorbol myristate acetate), (ii) investigating cytokine signaling pathways (tumor necrosis factor and interleukin-1), (iii) investigating the effects of drugs on signaling pathways (okadaic acid, menadione and cyclooxygenase inhibitors), (iv) characterization of specific phosphoproteins (heat-shock protein Hsp27 and stathmin), (v) comparing normal and transformed cells (MRC-5 human lung fibroblasts and their SV-40-transformed counterparts, MRC-5 SV1 cells), (vi) purifying phosphoproteins, (vii) investigating the relationship of protein phosphorylation to stages in the cell cycle (stathmin), (viii) investigating protein/protein interactions, (ix) mapping in vitro kinase substrates (protein kinase C, protein kinase A, and mitogen activated protein kinase activated protein kinase 2), and (x) locating and identifying cellular phosphatases (Hsp27 phosphatase). It is possible that the mapping of phosphoproteins can be linked to other 2-D gel databases and that information derived from these can be used in the future to better understand the signaling mechanisms of normal and cancerous cells.
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PMID:Analysis of cellular phosphoproteins by two-dimensional gel electrophoresis: applications for cell signaling in normal and cancer cells. 805 70


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