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)

Transforming growth factor beta (TGF beta) inhibits the proliferation of a wide range of cell types through interaction with its cell surface receptor (R-TGF beta). R-TGF beta possesses serine/threonine kinase activity rather than the tyrosine kinase activity normally associated with peptide growth factor receptors; nevertheless, TGF beta triggers a signaling pathway that leads to the repression of transcription factors, which appear to mediate the action of receptor tyrosine kinases within the nucleus. Accumulating evidence has also shown that the nonreceptor protein tyrosine kinases of the Src family play essential roles in the signal transduction pathways that regulate cell proliferation, differentiation, and function. Here, we investigate whether signals initiated by R-TGF beta are transduced, at least in part, through members of the Src family of tyrosine kinases. Treatment of the responsive human prostate carcinoma cell line PC3 with TGF beta induces a rapid and specific decrease in cellular levels of pp60Src and pp53/56Lyn and a corresponding decrease in their protein kinase activity when the assays were performed in vitro using the exogenous substrate enolase. Consistent with suppression of pp60Src and pp53/56Lyn kinase activity, TGF beta also caused a substantial intracellular accumulation of the unphosphorylated form of SH2-containing protein (SHC), a substrate of the Src family kinases. This was paralleled by decreased formation of a complex between the adaptor protein known as growth factor receptor-bound protein 2 and SHC. These results suggest, for the first time, that TGF beta induces down-regulation of Src family kinases, leading to disruption of the SHC-growth factor receptor-bound protein 2 complex. These events may play a crucial role in the negative regulation of Ras, as well as in the control of downstream effector molecules involved in the regulation of cell growth.
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PMID:Transforming growth factor beta down-regulates Src family protein tyrosine kinase signaling pathways. 752 36

Src-homology 2 (SH2) domains are conserved, globular protein modules that mediate assembly of multicomponent signaling complexes. Phosphoproteins from the B-lymphoid cell line A20 were isolated by SH2 affinity chromatography; the peptide sequence from one of these proteins was used to molecularly clone several related complementary DNAs whose predominant protein product, p130PITSLRE, is an abundant serine/threonine kinase with ubiquitous expression in murine tissues. The sequence of a previously described cyclin-dependent kinase homologue, p58clk-1, is entirely contained within the p130PITSLRE sequence. Specific binding of p130PITSLRE to SH2 domains is mediated by a serine- and glutamic acid-rich cluster of amino acids in the N-terminal region. This interaction is dependent on serine/threonine phosphorylation but independent of tyrosine phosphorylation. Binding is inhibited by free phosphotyrosine and by a phosphotyrosine-containing peptide from polyoma middle T antigen, suggesting that the p130PITSLRE binding site in the SH2 domain overlaps the region that binds phosphotyrosine-containing peptides. Bacterially expressed p130PITSLRE fragments acquire the ability to bind an SH2 domain when phosphorylated in vitro with casein kinase II. A subset of casein kinase II phosphorylation sites may therefore constitute a phosphotyrosine-independent class of SH2 ligands.
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PMID:A cyclin-dependent kinase homologue, p130PITSLRE is a phosphotyrosine-independent SH2 ligand. 752 43

Exposure of mammalian cells to ionizing radiation causes a delay in progression through the cycle at several checkpoints. Cells from patients with ataxia-telangiectasia (A-T) ignore these checkpoint controls postirradiation. The tumour suppressor gene product p53 plays a key role at the G1/S checkpoint preventing the progression of cells into S phase. The induction of p53 by radiation is reduced and/or delayed in A-T cells, which appears to account for the failure of delay at the G1/S checkpoint. We have investigated further this defect in radiation signal transduction in A-T. While the p53 response was defective after radiation, agents that interfered with cell cycle progression such as mimosine, aphidicolin and deprivation of serum led to a normal p53 response in A-T cells. None of these agents caused breaks in DNA, as determined by pulse-field gel electrophoresis, in order to elicit the response. Since this pathway is mediated by protein kinases, we investigated the activity of several of these enzymes in control and A-T cells. Ca+2-dependent and -independent protein kinase C activities were increased by radiation to the same extent in the two cell types, a variety of serine/threonine protein kinase activities were approximately the same and anti-tyrosine antibodies failed to reveal any differences in protein phosphorylation between A-T and control cells. It is not evident what is the nature of the defect in signal transduction in A-T cells. However, it is clear that the p53 response is normal in these cells after exposure to some agents and it is mediated through protein kinase C or another serine/threonine kinase.
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PMID:Defect in radiation signal transduction in ataxia-telangiectasia. 753 Jul 54

The direct effect of omega-3 and omega-6 fatty acids on the proliferation of mouse mammary tumor cells (MTC) was examined in a serum-free cell culture system. While the EGF-induced proliferation of normal mammary epithelial cells was shown to be enhanced by omega-3 and omega-6 fatty acids and prostaglandins (PGs), a majority (75-80%) of primary mammary tumors were not stimulated by these agents. Compared to normal cells, some MTC cultures showed a higher susceptibility to inhibition by omega-3 fatty acids. The general lack of response of MTC cultures to PGE2 and cyclic adenosine monophosphate (cAMP) suggests some alterations in the cAMP-mediated pathway. However, the PGE2-induced cAMP levels and cAMP-dependent protein kinase (PKA) activities in the tumor cells were comparable to normal cells. We conclude that the proliferation of mammary tumor cells either follow a cAMP-PKA-independent pathway or have some alterations in the serine/threonine kinase mediated signaling pathway.
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PMID:Omega-3 and omega-6 fatty acids and PGE2 stimulate the growth of normal but not tumor mouse mammary epithelial cells: evidence for alterations in the signaling pathways in tumor cells. 753 35

Raf-1 is a 74-kD serine/threonine kinase located in the cell cytoplasm that is activated by phosphorylation in cells stimulated with a variety of mitogens and growth factors, including hematopoietic growth factors. Using c-raf antisense oligonucleotides to block Raf-1 expression, we have established that Raf-1 is required for hematopoietic growth factor-induced proliferation of murine cell lines stimulated by growth factors whose receptors are members of several different structural classes: (a) the hematopoietin receptor family, including interleukin (IL)-2, IL-3, IL-4, granulocyte colony-stimulating factor, granulocyte/macrophage colony-stimulating factor (GM-CSF), and erythropoietin; (b) the tyrosine kinase receptor class, including Steel factor and CSF-1; and (c) IL-6, leukemia inhibitory factor, and oncostatin M, whose receptors include the gp130 receptor subunit. Although results of previous experiments had suggested that IL-4 does not phosphorylate or activate the Raf-1 kinase, c-raf antisense oligonucleotides inhibited IL-4-induced proliferation of both myeloid and T cell lines, and IL-4 activated Raf-1 kinase activity in an IL-4-dependent myeloid cell line. In colony assays, c-raf antisense oligonucleotides completely inhibited colony formation of unseparated normal murine bone marrow cells stimulated with either IL-3 or CSF-1 and partially inhibited cells stimulated with GM-CSF. In addition, c-raf antisense oligonucleotides completely inhibited both IL-3- and GM-CSF-induced colony formation of CD34+ purified human progenitors stimulated with these same growth factors. Thus, Raf-1 is required for growth factor-induced proliferation of leukemic murine progenitor cell lines and normal murine and human bone marrow-derived progenitor cells regardless of the growth factor used to stimulate cell growth.
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PMID:Raf-1 protein is required for growth factor-induced proliferation of hematopoietic cells. 753 43

Raf-1 is a serine/threonine kinase poised at a key relay point in mitogenic signal transduction pathways from the cell surface to the nucleus. Activation of the transforming potential of Raf-1 has been associated with N-terminal truncation and/or fusion to other proteins, suggesting that the Raf-1 N-terminal half harbors a negative regulatory domain. Seven internal deletion mutants that together scan the entire N-terminal half of human Raf-1 protein were generated to map functional regions in this regulatory domain. Effects of the deletion mutations on kinase activity of Raf-1 were evaluated using a baculovirus/insect cell overexpression system and an in vitro kinase assay with the known physiological substrate of Raf-1, mitogen-activated protein kinase kinase. Deletion of amino acids 276-323 in the unique sequence between conserved regions 2 and 3 leads to modest elevation of Raf-1 basal kinase activity, whereas deletion of amino acids 133-180 in conserved region 1 results in diminished kinase activity. Surprisingly, none of the Raf-1 N-terminal deletion mutants, including a truncated version that is transforming in rodent fibroblasts, exhibits greatly increased levels of basal kinase activity. In addition, while activation of Raf-1 kinase by Ras requires sequences in conserved region 1, only the C-terminal half containing the kinase domain of Raf-1 is required for activation by Src. These findings demonstrate that N-terminal deletions in Raf-1 do not necessarily result in constitutively elevated basal kinase activity and that the N-terminal regulatory domain is completely dispensable for Raf-1 activation by Src.
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PMID:Functional mapping of the N-terminal regulatory domain in the human Raf-1 protein kinase. 753 98

A novel serine/threonine specific protein kinase was found to be associated with the type I IL-1 receptor in the murine T cell lines D10N and EL-4. This kinase was identified in immunoprecipitates from IL-1 stimulated T-cells by its ability to phosphorylate exogenous substrates in the presence of radiolabeled ATP. An endogenous protein, most likely a member of the IL-1 R1 complex, was also phosphorylated. The activation of the kinase is specific for IL-1, neither TNF nor phorbol esters were able to activate the IL-1 RI associated kinase activity. The IL-1 receptor antagonist had no intrinsic activity and inhibited the activation of the kinase. The activation of the kinase was rapid and detectable after 30 seconds of IL-1 stimulation. A minimal model of the IL-RI signal transduction complex is discussed, presenting this novel serine/threonine kinase as a constituent of the complex.
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PMID:Signal transduction by the IL-1 type I receptor: evidence for the involvement of a receptor-coupled protein kinase. 757 51

To identify key molecules that regulate germ cell proliferation and differentiation, we have attempted to isolate protein kinase genes preferentially expressed in germ line cells. One such cDNA cloned from murine embryonic germ(EG) cells encodes a nonreceptor type serine/threonine kinase and is predominantly expressed in the testis, ovary, and spleen of adult mouse. The nucleotide sequence of the entire coding regions shows that this clone, designated Plk1(polo like kinase 1), is identical with STPK13 previously cloned from murine erythro-leukemia cells. The protein encoded by Plk1 is closely related to the product of Drosophila polo that plays a role in mitosis and meiosis. To define the role of Plk1 in germ cell development, we have examined its expression in murine gonads by in situ hybridization. Here we show that the Plk1 gene is specifically expressed in spermatocytes of diplotene and diakinesis stage, in secondary spermatocytes, and in round spermatids in testes. It is also expressed in growing oocytes and ovulated eggs. The pattern of expression of the Plk1 gene suggests that the gene product is involved in completion of meiotic division, and like the Drosophila polo protein, is a maternal factor active in embryos at the early cleavage stage.
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PMID:Murine polo like kinase 1 gene is expressed in meiotic testicular germ cells and oocytes. 757 8

The brain-enriched p21cdc42/rac1-activated serine/threonine kinase, p65PAK, was identified and purified on the basis of overlays with [gamma-32P]GTP-Cdc42 onto SDS-fractionated proteins (Manser, E., Leung, T., Salihuddin, H., Zhao, Z.-S., and Lim, L. (1994) Nature 367, 40-46). In this study, the ubiquitously expressed p21cdc42/rac1 binding protein with relative molecular weight of 62,000 was purified from rat testes and shown to contain peptides related to PAK. It has thus been designated as the gamma-PAK isoform (alpha- and beta-isoforms being brain enriched). Isolation of gamma-PAK cDNAs show that the kinase is highly conserved with alpha-PAK in both the p2 binding and kinase domains. The purified protein exhibited kinase activity that was activated by GTP-Cdc42 or GTP-Rac1 in vitro. In platelets, a p62 in situ renaturable kinase was recognized by antibodies raised against gamma-PAK. This thrombin-activated protein kinase appears to coprecipitate with another kinase of M(r) 86,000, suggesting that PAK may be part of a thrombin-responsive signaling complex.
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PMID:Identification and molecular cloning of a p21cdc42/rac1-activated serine/threonine kinase that is rapidly activated by thrombin in platelets. 759 96

The Raf-1 serine/threonine kinase transmits proliferative and developmental signals to downstream effectors in the mitogen-activated protein kinase cascade. Studies to date have concentrated on its role in growth factor-mediated activation of the cell cycle. We show here that Raf-1 kinase activity is also highly stimulated during mitosis, with an attendant distinctive electrophoretic mobility shift due to hyperphosphorylation. These results suggest that Raf-1 may play a role in traversal of at least two distinct phases of the cell cycle.
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PMID:Raf-1 is activated during mitosis. 759 6

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