EC:2.7.10.1 - FACTA Search

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Query: EC:2.7.10.1 (ERK)
95,504 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The interplay between cyclic AMP (cAMP)-dependent protein kinase A (PKA)- and p21ras-mediated signaling pathways is expected to determine further loss, maintenance, or modulation of differentiation and proliferation of a particular cell. Therefore, the relationship and nature of the cross-talk between these two major signaling systems are of utmost importance to the understanding of these processes in both normal and neoplastic cells. In view of their paramount physiological importance, one would expect the existence of a well-controlled bidirectional interaction between these pathways, which would be more appropriate and in agreement with basic principles of cellular homeostasis. However, based on the discovery that activated PKA may inhibit ras-mediated translocation of c-Raf-1 to the plasma membrane, it is generally accepted that the cross-talk between cAMP/PKA and p21ras-mediated signal transduction pathways is unilateral, i.e., that the activation of PKA regulates growth factor receptor protein tyrosine kinase-mediated signaling. To challenge the validity of a unilateral approach, we decided to test the possible existence of cross-talk of a bidirectional nature between the aforementioned signaling pathways at different stages of malignant differentiation. For that purpose, we investigated the nature of the cross-talk existing between a known receptor protein tyrosine kinase-epidermal growth factor receptor (EGFR) and PKA in highly metastatic and nonmetastatic cloned variants of a murine fibrosarcoma (T-10). Our study revealed the existence of principal differences in PKA activity between metastatic and nonmetastatic cloned fibrosarcoma variants that may be due to the differential expression and membrane translocation of the p21(Ki-ras) small mass G-protein. Most importantly, our experiments have demonstrated the existence of a novel character of interactions between EGFR and PKA, because the ligation of the EGFR by epidermal growth factor in the metastatic variant induced a high activity of PKA. These findings are of prime importance, because they reveal the existence of a new relationship between two major signal transduction pathways in mammalian cells, i.e., the existence of a bilateral interaction between the ras- and cAMP/PKA-mediated signal transduction pathways. Furthermore, the fact that two tumor cell variants originating in the same tumor and differing in their metastatic capacity differ as well in the nature of the cross-talk between major signal generation systems imposes new challenges for the future use of biological response modulators to cure cancer and restrict metastatic spread.
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PMID:Epidermal growth factor regulates protein kinase A activity in murine fibrosarcoma cells: differences between metastatic and nonmetastatic tumor cell variants. 939 68

The nucleotide-binding properties of wild-type epidermal- growth-factor (EGF)-receptor protein tyrosine kinase (PTK) and EGF-receptor mutants with site-specific amino acid substitutions known to attenuate protein kinase activity were analysed by a fluorescence competition assay employing the nucleotide analogue 2'(3')-O-(2,4,6-trinitrophenyl)adenosine 5'-triphosphate. Binding affinities for ATP and Mn.ATP complex were determined for the PTK domains of the wild-type and two mutant proteins. Surprisingly, mutation of the highly conserved Lys-721 residue in the nucleotide-binding site of the EGF- receptor PTK domain did not abolish ATP and Mn.ATP binding, although the binding affinity for the Mn.ATP complex was significantly reduced. A second kinase-inactivating mutation that targeted the highly conserved Asp-813 residue had little effect on the nucleotide-binding properties of the EGF-receptor PTK domain. These results indicated that the principle effect of these two kinase-inactivating amino acid substitutions is not to block nucleotide binding, but is instead an inhibition of the phospho-transfer reaction.
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PMID:Nucleotide-binding properties of kinase-deficient epidermal-growth-factor-receptor mutants. 946 30

Primordial germ cells (PGCs) give rise to both eggs and sperm via complex maturational processes that require both cell migration and proliferation. However, little is known about the genes controlling gamete formation during the early stages of PGC development. Although several mutations are known to severely reduce the number of PGCs reaching and populating the genital ridges, the molecular identity of only two of these genes is known: the c-kit receptor protein tyrosine kinase and the c-kit ligand (the steel factor). Herein, we report that mutant mice lacking TIAR, an RNA recognition motif/ribonucleoprotein-type RNA-binding protein highly expressed in PGCs, fail to develop spermatogonia or oogonia. This developmental defect is a consequence of reduced survival of PGCs that migrate to the genital ridge around embryonic day 11.5 (E11.5). The numbers of PGCs populating the genital ridge in TIAR-deficient embryos are severely reduced compared to wild-type embryos by E11.5 and in the mutants PGCs are completely absent at E13.5. Furthermore, TIAR-deficient embryonic stem cells do not proliferate in the absence of exogenous leukemia inhibitory factor in an in vitro methylcellulose culture assay, supporting a role for TIAR in regulating cell proliferation. Because the development of PGCs relies on the action of several growth factors, these results are consistent with a role for TIAR in the expression of a survival factor or survival factor receptor that is essential for PGC development. TIAR-deficient mice thus provide a model system to study molecular mechanisms of PGC development and possibly the basis for some forms of idiopathic infertility.
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PMID:RNA-binding protein TIAR is essential for primordial germ cell development. 948 85

The proto-oncogene Ret, a membrane-associated receptor protein tyrosine kinase, has recently been shown to be a component of the glial cell line-derived neurotrophic factor (GDNF) receptor complex. GDNF has potent dopaminergic neurotrophic properties and has been suggested as a treatment for Parkinson's disease (PD). In this study, tissue sections of human substantia nigra (SN) from normal and PD cases were examined to determine the pattern of Ret expression in this region, and whether there was continued Ret expression in surviving dopaminergic neurons in PD cases. Using a polyclonal antibody to the amino terminal of Ret, immunoreactivity was localized in the SN to dopaminergic neurons. The antibody predominantly identified punctate deposits within cells. A similar pattern of immunoreactivity was observed in rat and monkey SN neurons. In neurologically normal cases, immunoreactivity was detected in many of the SN neurons. In all the PD cases studied, continued expression of Ret was observed in many of the surviving dopaminergic neurons. In certain cases, it was also detected on cells with the morphology of microglia. Ret expression by microglia was confirmed by immunoblot analysis on the human THP-1 macrophage type cell line. However, these cells did not express the mRNA for GDNFRalpha, the other component of the GDNF receptor complex.
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PMID:Expression of the proto-oncogene Ret, a component of the GDNF receptor complex, persists in human substantia nigra neurons in Parkinson's disease. 959 97

Glial cell line-derived neurotrophic factor (GDNF) and a related factor, neurturin, promote survival of diverse groups of neurons. Both GDNF and neurturin signal via a two-component receptor complex that consists of a ligand-binding GDNF family receptor (GFRalpha-1 or GFRalpha-2) and the receptor protein tyrosine kinase Ret. Recently, a third receptor related to GFRalpha-1 and GFRalpha-2 has also been isolated and designated GFRalpha-3. Although much is known about the interaction among GDNF family factors, Ret, and the alpha-receptors in vitro, it remains unclear about their interactions in vivo. We show here by in situ hybridization that Ret and the alpha-receptors may be colocalized in the same tissues or expressed separately in projecting and target tissues, respectively, indicating that two distinct modes of interaction between Ret and the alpha-receptors exist in vivo. First, Ret may interact with the alpha-receptors expressed in the same cells (termed interaction "in cis") in many tissues and cell populations that respond to GDNF and/or neurturin, such as the substantia nigra, dorsal root ganglia, spinal cord motoneurons, kidney, and intestine. Second, Ret may interact with the alpha-receptors localized in the target neurons (termed interaction "in trans"). In addition, we present evidence in vitro that GFRalpha-1 mediates Ret activation by GDNF in trans. These observations suggest that there are multiple mechanisms regulating the interaction between Ret and the alpha-receptors that mediates the effects of GDNF family trophic factors on the survival and differentiation of cells and on neuron-target interactions in the nervous system.
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PMID:Expression of GDNF family receptor components during development: implications in the mechanisms of interaction. 961 43

The c-kit-encoded receptor protein tyrosine kinase for stem cell factor (Kit/SCF-R) is essential for the development of cells within the hematopoietic, melanogenic and gametogenic lineages. SCF stimulation induces activation of phosphatidylinositol (PI) 3-kinase, which is required for SCF-induced mitogenesis and cell survival, and for activation of the serine/threonine, we found that, in response to SCF Akt became activated and mediated phosphorylation of Bad, a pro-apoptotic molecule, in a PI-3-kinase-dependent manner. Phosphorylation of Bad was restricted to Ser112 and Ser136 in vivo, but only the Akt phosphorylation sit Ser136 was essential for SCF-promoted cell survival. Furthermore, Bad and Akt interacted and colocalized in intact cells. A Kit/SCF-R gain-of-function mutant that has increased mitogenic and PI 3-kinase activation potential, due to the absence of the two protein kinase C negative feedback phosphorylation site, enhanced both Akt activation and Bad phosphorylation and also resulted in increased cell survival. Such a mechanism may account for how deregulated PI 3-kinase activity and naturally occurring gain-of-function point mutants of Kit/SCF-R lead to cellular transformation and fatal malignancies in man.
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PMID:The kit receptor promotes cell survival via activation of PI 3-kinase and subsequent Akt-mediated phosphorylation of Bad on Ser136. 965 83

To investigate external signals involved in germ cell differentiation from somatic stem cells, we have tried to identify protein kinases whose expression is regulated during the process of sexualization of asexual-state planarians. It is known that in planarians germ cells differentiate from totipotent somatic stem cells called "neoblasts" during sexualization. As a first step, we have isolated twelve protein kinase genes from cDNAs of sexual-state planarians, including three non-receptor tyrosine kinases, three receptor-tyrosine kinases and three non-receptor serine/threonine kinases, and then analyzed their expression patterns during sexualization. One of them, the DjPTK1 gene, is specifically expressed in germ cells of sexual-state planarians. DjPTK1-positive cells were also detected in the mesenchymal space during the process of sexualization, and it appears that these cells migrate to the dorsal side and then differentiate into spermatogonia/spermatocytes in testis. Sequence analysis indicated that the DjPTK1 gene encodes a receptor protein tyrosine kinase belonging to the FGFR/PDGF family. These results suggest that a receptor tyrosine kinase system may be involved both at an early stage of germ cell differentiation and in a step of germ cell maturation in planarians.
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PMID:Identification of a receptor tyrosine kinase involved in germ cell differentiation in planarians. 967 12

Polypeptides such as growth factors, differentiation factors, and hormones are crucial components of the regulatory system that coordinates development of multicellular organisms. Many of these factors mediate their pleiotropic actions by binding to and activating cell surface receptors with an intrinsic protein tyrosine kinase activity. The receptor activation due to ligands binding are translated across the membrane barrier into activation of intracellular domain functions. All receptor tyrosine kinase are composed of three major domains; an extracellular domain connected via a single membrane-spanning domain to a cytoplasmic domain. The extracellular domain is responsible for ligand binding and transmission of the biological signal to the cytoplasmic domain, whose role is to transmit the biological signal to intracellular target proteins. The cytoplasmic domain contains, in addition to the catalytic protein tyrosine kinase, distinct regulatory sequences with tyrosine, serine, and threonine phosphorylation sites. It appears that ligand-induced activation of the kinase domain and its signaling potential are mediated by receptor oligomerization. Ligand binding and the subsequent conformational alteration of the extracellular domain induce receptor oligomerization, which stabilizes interaction between adjacent cytoplasmic domains and leads to activation of kinase function and autophosphorylation of themselves. These receptor and substrate phosphorylation create binding sites for SH2 containing signaling molecule, such as Grb2, Shc, PI3 kinase and SHP-2. Binding of SH2 domains to tyrosine-phosphorylated regions of receptors or adaptor proteins, and a number of protein, such as SH3 containing protein, cytosol protein tyrosine kinase, protein tyrosine phosphatase and serine/threonine kinase, mediate intracellular signaling cascade and play critical roles in activated receptor protein tyrosine kinase to downstream signaling pathways.
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PMID:[The signal transduction of receptor tyrosine kinase]. 970 50

The Neu Differentiation Factors (NDFs, also termed "heregulins") are a family of proteins that were first isolated as ligands for the HER2 (ergB2, or p185neu) receptor protein tyrosine kinase. Here we show that NDF acts to stimulate the proliferation and alter the cellular morphology of colonic epithelial cells in culture. Dramatic NDF-induced changes in cellular morphology were noted in the colonic epithelial cell line, LIM 1215. In addition, the expression of specific cell proteins, such as carcinoembryonic antigen and integrin beta 4, was induced in LIM 1215 cells by NDF. These effects were more pronounced with the beta isoform than with the alpha isoform of NDF. The EGF-homology domain of NDF beta was sufficient to stimulate the proliferation and alteration in cell morphology. The use of chemically synthesized chimeric NDF alpha and NDF beta proteins enabled use to identify a region of seven amino acids in the EGF-homology domain of NDF beta that is required for both activities. These in vitro experiments suggest that NDF may act as a regulator of growth and differentiation of colonic epithelial cells in vivo.
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PMID:A Neu differentiation factor (NDF) domain essential for proliferation and alterations in morphology of colonic epithelial cells in vitro. 971 14

The TrkA receptor protein tyrosine kinase is involved in signalling PC12 cell differentiation and cessation of cell division in response to nerve growth factor (NGF). To assess the importance of adaptor proteins and Ras in NGF control of phosphoinositide 3-OH kinase (PI 3-kinase), specific receptor mutations in Trk have been employed. We show that phosphorylation of tyrosine 490, but not 785, of Trk is essential for activation of both Ras and PI 3-kinase in vivo, correlating with tyrosine phosphorylation of Shc and binding of Shc to the adaptor Grb2 and the Ras exchange factor Sos. A mutant receptor that lacks Y490 and Y785, but contains an introduced YxxM motif which binds the regulatory domain of PI 3-kinase, is unable to activate Ras despite causing increased PI 3-kinase activity. This indicates clearly that activation of PI 3-kinase by itself is not sufficient to cause activation of Ras, arguing against a model in which PI 3-kinase acts upstream of Ras. The Shc site of Trk is thus crucial for the activation of Ras and PI 3-kinase.
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PMID:Nerve growth factor induced stimulation of Ras requires Trk interaction with Shc but does not involve phosphoinositide 3-OH kinase. 971 70

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