Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:2.7.11.24 (mitogen-activated protein kinase)
95,810 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Activated versions of ras and mos oncogenes subvert the signal transduction pathway by mimicking transducers at the plasma membrane and cytosol respectively. Radicicol (UCS1006), an antifungal antibiotic, had the ability to suppress transformation by ras and mos oncogenes in a rapid, reversible and dose-dependent manner. UCS1006 inhibited MAP kinase activity (both ERK1 and ERK2) in untransformed as well as ras and mos transformed cells. However, ERK2 but not ERK1 activity was constitutively elevated in ras and mos transformed cells used in this study. In addition, a 62 kDa (kilodalton) phosphoprotein was identified whose tyrosine phosphorylation was inhibited by UCS1006, in both ras and mos transformed cells. This 62 kDa phosphoprotein, which was found to be heavily phosphorylated on tyrosine residues only in the ras and mos transformed cells but not in untransformed NIH3T3 cells, was identical to the previously described GAP-associated tyrosine phosphoprotein, p62, that is the major target for phosphorylation in cells transformed by tyrosine kinase oncogenes. These results suggest that agents such as radicicol can suppress transformation by diverse oncogenes such as src, ras and mos at least in part by inhibiting the function of key signal transduction intermediates such as MAP kinase and GAP-associated p62.
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PMID:Suppression of RAS and MOS transformation by radicicol. 762 24

The Lck tyrosine kinase molecule plays an essential role in T cell activation and T cell development. Using the expression cloning technique, we have isolated a gene that encodes a molecule, LckBP1, able to associate with murine Lck. Analysis of full-length LckBP1 cDNA indicates at least four potentially important segments: a four tandem 37 amino acid repeat motif with a potential helix-turn-helix DNA binding motif; a proline-rich region; a proline-glutamate repeat; and an SH3 domain. These four regions are very similar to the human haematopoietic-specific protein 1 (HS1). Deletion mutant analysis of LckBP1 revealed two proline-rich regions that permit association with Lck SH3. One region contains prolines conserved among HS1 and cortactin, and the other region contains a potential MAP kinase recognition site. In vivo association between Lck and LckBP1 was confirmed by immunoprecipitation of lysates from a pre-T cell line and adult thymocytes using antibodies specific for Lck and LckBP1. LckBP1 is tyrosine phosphorylated after T-cell receptor stimulation. The SH3 domain and the potential helix-turn-helix motif in LckBP1 suggest that this molecule may associate with various molecules and function as a DNA binding molecule. The data also suggest that LckBP1 mediates intracellular signalling through Lck in T cells.
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PMID:LckBP1, a proline-rich protein expressed in haematopoietic lineage cells, directly associates with the SH3 domain of protein tyrosine kinase p56lck. 762 41

Epidermal growth factor (EGF) is a single polypeptide of 53 amino acid residues which is involved in the regulation of cell proliferation. Egf exerts its effects in the target cells by binding to the plasma membrane located EGF receptor. The EGF receptor is a transmembrane protein tyrosine kinase. Binding of EGF to the receptor causes activation of the kinase and subsequently receptor autophosphorylation. The autophosphorylation is essential for the interaction of the receptor with its substrates. These bind to the receptor by the so-called SH2 domains. The signal transduction pathways activated by EGF include the phosphatidylinositol pathway, leading to activation of protein kinase C and to increase in the intracellular Ca2+ concentration, and to the ras pathway leading to MAP kinase activation. Recently the cytoplasm has been implicated as playing an important role in EGF induced signal transduction. The EGF receptor has been demonstrated to be an actin-binding protein. In addition EGF causes a rapid actin depolymerisation and the formation of membrane ruffles. In particular these membrane ruffles have been shown to act as the first site of signal transduction after EGF binding, and thus may be considered as signal transduction structures. Finally evidence has been presented suggesting a positive role for EGF and/or the receptor in the nucleus.
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PMID:The epidermal growth factor. 764 Jun 57

We constructed mutant receptors by mutating transmembrane Val922 of the human insulin-like growth factor I receptor (IGF-IR). Assays of receptor kinase and autophosphorylation revealed constitutively augmented tyrosine kinase activity of V922E IGF-IR in both transient and stable expression. The constitutively active tyrosine kinase of this mutant was verified by promoted tyrosine phosphorylation of insulin receptor substrate-1 (IRS-1) in the absence of IGF-I. In CHO cells stably increasing V922E IGF-IR, both IRS-1 phosphorylation and the IRS-1 associated phosphoinositide 3-kinase activity were stimulated in the absence of IGF-I to the level attained by 1 nM IGF-I stimulation of wild-type IGF-IR, whereas the Ras-mitogen-activated protein kinase pathway was not activated under the same condition. In these CHO cells, V922E IGF-IR significantly stimulated glucose uptake but did not promote mitogenesis in the absence of IGF-I. We thus conclude that the V922E mutation of IGF-IR switches on the intrinsic tyrosine kinase and differentially activates the downstream pathways. This mutant is extremely useful in clarifying the turning-on mechanism of IGF-IR as well as the differential roles of individual downstream pathways of receptor tyrosine kinases.
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PMID:Insulin-like growth factor I receptor activated by a transmembrane mutation. 764 66

We have used quail skeletal myotubes expressing a temperature-sensitive allele of the v-src oncogene to address the issue of the homeostasis of sarcomeric myofibrils in differentiated muscle cells. Reactivation of the v-Src tyrosine kinase by shifting the cultures to the permissive temperature leads within minutes to the formation of F-actin-containing bodies (ABs), that originate in the ventral region of the myotubes and increase in number concomitantly with the dismantling of the I-Z-I complex of the sarcomeres. This process is detailed by confocal and electron microscopy. Indirect immunofluorescence reveals that ABs contain muscle-specific protein isoforms associated with the I-Z-I complexes and vinculin, a component of the cytoskeletal network. Anti-phosphotyrosine antibodies label proteins in ABs and Z-discs. Evidence is presented indicating that this phenomenon specifically depends on the persistent activation of v-Src, rather than on a general increase in phosphotyrosine content such as that induced by vanadate. AB formation is prevented by activation of protein kinase C by phorbol ester or by treatment with the kinase inhibitor 2-aminopurine, without any detectable effect on tyrosine phosphorylation. Taken together these findings indicate that phosphorylation of specific target proteins by v-Src, although necessary, is not sufficient per se to induce AB formation. In addition, the signal transduction cascade that culminates in MAP kinase activation and its nuclear translocation is activated both by v-Src and phorbol ester, and is relatively unaffected by 2-aminopurine. These findings imply that both phorbol esters and 2-aminopurine operate, at least in part, at the level of alternative pathways that may diverge upstream of the MAP kinase and are presumably mediating the early effects of v-Src on the differentiated phenotype.
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PMID:Maintenance of the differentiated state in skeletal muscle: activation of v-Src disrupts sarcomeres in quail myotubes. 764 4

A kinase cascade highly conserved throughout evolution, Raf/MAP kinase kinase kinase (MAPKKK)-->MAP kinase kinase (MAPKK)-->MAP kinase (MAPK)-->ribosomal S6 kinase (p90 RSK), is thought to play a crucial role in signal transduction from the membrane to the nucleus. In mammalian cells, this cascade is connected both to tyrosine kinase receptors and G protein-coupled receptors. Although the mode of activation at the receptor level differs, all mitogens activate the ubiquitously expressed isoforms of MAPK, p42 and p44. We have cloned, epitope tagged and expressed in fibroblasts, the Hamster MAPKK and p44 MAPK in order to analyze their time-course of activation, their subcellular localization, their regulatory phosphorylation sites and their role in cell cycle entry. We have demonstrated that MAPK activation was rapid, biphasic and persistent. The sustained phase of activation is only obtained with potent mitogenic agents, correlating with their ability to elicit cell cycle entry. Activation of MAPKK is also rapid and persistent but does not distinguish between mitogenic and non mitogenic factors, indicating that a distinction occurs at the MAPK level, probably by the action of specific phosphatases such as MAPK phosphatase MKP-1. Both isoforms of MAPK are translocated into the nucleus upon growth factor addition whereas the upstream activators (MAPKKK, Raf and MAPKK) remain cytoplasmic. MAPK translocation, together with the ability of MAPK to phosphorylate transcription factors, indicates that MAPK might constitute a relay between cytoplasmic and nuclear events. Finally we show that interfering with the MAP kinase cascade, by expressing either MAPK antisense, a MAPK dominant negative mutant or the MAPK specific phosphatase, MKP-1, suppresses the growth factor induced G0 to G1 transition. In addition, permanently activated versions of MAPKK reduce growth factor requirement, allow autonomous cell growth and induce tumor formation in nude mice. We therefore conclude that MAP kinase activation is both necessary and sufficient to trigger cell cycle entry.
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PMID:[MAP kinase module: role in the control of cell proliferation]. 764 66

Receptors for chemoattractants that direct the migration of phagocytic leukocytes to sites of injury/infection also modulate many other leukocyte functions that are critical to the inflammatory response. These chemoattractant receptors, members of the G protein-coupled heptahelical receptor family, have been classically linked to cell activation via phospholipase C, calcium, and protein kinase C. We show here that activation of the N-formyl peptide chemoattractant receptor stimulates an additional protein kinase C-independent pathway through the Src-related tyrosine kinase, Lyn, in human neutrophils. We demonstrate that activation of Lyn is associated with binding to the Shc adapter protein, which becomes phosphorylated on tyrosine residues. This interaction appears to be mediated via the Shc SH2 domain. Complexes of phosphorylated Lyn and Shc with phosphatidylinositol 3-kinase are rapidly formed in stimulated neutrophils, correlating with phosphatidylinositol 3,4,5-trisphosphate [corrected] formation and cell activation. This signaling pathway involving a Src-related kinase and the Shc adapter protein provides a potential mechanism linking chemoattractant receptors to downstream events involving Rac activation and NADPH oxidase. Regulation of Shc by G protein-coupled receptors may also allow these receptors to modulate the activity of the Ras/mitogen-activated protein kinase cascade.
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PMID:G protein-coupled chemoattractant receptors regulate Lyn tyrosine kinase.Shc adapter protein signaling complexes. 765 13

Mitogen-activated protein (MAP) kinases mediate the phosphorylation and activation of nuclear transcription factors that regulate cell growth. MAP kinase activation may result from stimulation of either tyrosine-kinase (RTK) receptors, which possess intrinsic tyrosine kinase activity, or G-protein-coupled receptors (GPCR). RTK-mediated mitogenic signalling involves a series of SH2- and SH3-dependent protein-protein interactions between tyrosine-phosphorylated receptor, Shc, Grb2 and Sos, resulting in Ras-dependent MAP kinase activation. The beta gamma subunits of heterotrimeric G proteins (G beta gamma) also mediate Ras-dependent MAP kinase activation by an as-yet unknown mechanism. Here we demonstrate that activation of MAP kinase by Gi-coupled receptors is preceded by the G beta gamma-mediated tyrosine phosphorylation of Shc, leading to an increased functional association between Shc, Grb2 and Sos. Moreover, disruption of the Shc-Grb2-Sos complex blocks G beta gamma-mediated MAP kinase activation, indicating that G beta gamma does not mediate MAP kinase activation by a direct interaction with Sos. These results indicate that G beta gamma-mediated MAP kinase activation is initiated by a tyrosine phosphorylation event and proceeds by a pathway common to both GPCRs and RTKs.
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PMID:Receptor-tyrosine-kinase- and G beta gamma-mediated MAP kinase activation by a common signalling pathway. 765 31

Neurotrophin-3 binds to the receptor tyrosine kinase, TrkC. Several naturally occurring splice variants of TrkC exist including those with 14- and 39-amino acid inserts within the tyrosine kinase homology region. When expressed in fibroblasts, full-length TrkC, but not the kinase insert variants, mediated neurotrophin-3-stimulated cell proliferation. We investigated the molecular basis of this signaling defect. The kinase inserts blocked the ability of TrkC to mediate neurotrophin-3 stimulated c-myc and c-fos transcription and activation of the AP-1 transcriptional complex. In cells expressing full-length TrkC, neurotrophin-3 promoted a sustained activation of mitogen-activated protein kinase; TrkC containing kinase inserts only mediated transient activation of mitogen-activated protein kinase. The kinase inserts specifically blocked neurotrophin-3-stimulated autophosphorylation of the phospholipase C gamma binding site on TrkC (tyrosine 789) resulting in a severe reduction in phospholipase C gamma association with TrkC and its tyrosine phosphorylation. Neurotrophin-3-stimulated phosphorylation of the Shc binding site (tyrosine 485) on TrkC, and tyrosine phosphorylation of Shc itself, was unaffected by the kinase inserts; however, the kinase inserts blocked high affinity Shc association with TrkC. It is proposed that the lack of high affinity binding of Shc and/or phospholipase C gamma to the TrkC kinase insert variants may be responsible for the inability of these variants to bring about a full biological response in fibroblasts.
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PMID:Naturally occurring tyrosine kinase inserts block high affinity binding of phospholipase C gamma and Shc to TrkC and neurotrophin-3 signaling. 765 12

Nerve growth factor (NGF) and epidermal growth factor (EGF) elicit contrasting actions on PC12 pheochromocytoma cells; NGF causes neuronal differentiation, and EGF induces proliferation. However, ectopic expression of the Src homology 2 (SH2) and SH3-containing oncogenic adaptor protein v-Crk in PC12 cells results in EGF-inducible neuronal differentiation (Hempstead, B. L., Birge, R. B., Fajardo, J. E., Glassman, R., Mahadeo, D., Kraemer, R., and Hanafusa, H. (1994) Mol. Cell. Biol. 14, 1964-1971). Here we show that v-Crk complexes with both the tyrosine-phosphorylated EGF receptor and the Ras guanine nucleotide exchange factor SOS in PC12 cells and is involved in an pathway analogous to that of Grb2. Expression of v-Crk results in an enhanced and sustained activation of Ras and mitogen-activated protein (MAP) kinase following EGF or NGF stimulation, implying that v-Crk can couple divergent tyrosine kinase pathways to Ras. To investigate the causal relationship between EGF receptor binding, MAP kinase activation, and neurite outgrowth, we stably expressed two v-Crk SH2 point mutants, v-Crk(R273N) and v-Crk(H294R) in PC12 cells. Mutations within the SH2 domain of v-Crk block binding of v-Crk to the tyrosine phosphorylated EGF receptor, compromise v-Crk's ability to cause EGF-dependent neurite outgrowth, and act in a dominant negative manner for NGF-induced neurite outgrowth. However, the kinetics of MAP kinase activation in EGF- or NGF-treated v-Crk-(R273N)PC12 cells was comparable with that in v-CrkPC12 cells. These data are consistent with a model in which v-Crk regulates the strength of a tyrosine kinase signal leading to prolonged activation of Ras and MAP kinase. However, the experiments with the SH2 mutants suggest that sustained activation, by itself, may not be sufficient to switch the fate of v-CrkPC12 cells from proliferation toward differentiation.
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PMID:v-Crk modulation of growth factor-induced PC12 cell differentiation involves the Src homology 2 domain of v-Crk and sustained activation of the Ras/mitogen-activated protein kinase pathway. 765 47


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