Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P51812 (mitogen-activated protein)
10,636 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We compared the nucleosomal organization, histone H1 subtypes, and histone H1 phosphorylated isoforms of ras-transformed and parental 10T1/2 mouse fibroblasts. In agreement with previous studies, we found that ras-transformed mouse fibroblasts have a less condensed chromatin structure than normal fibroblasts. ras-transformed and parental 10T1/2 cells had similar amounts of H1 subtypes, proteins that have a key role in the compaction of chromatin. However, labeling studies with 32P and Western blot experiments with an antiphosphorylated H1 antibody show that interphase ras-transformed cells have higher levels of phosphorylated H1 isoforms than parental cells. G1/S phase-arrested ras-transformed cells had higher amounts of phosphorylated H1 than G1/S phase-arrested parental cells. Mouse fibroblasts transformed with fes, mos, raf, myc, or constitutively active mitogen-activated protein (MAP) kinase kinase had increased levels of phosphorylated H1. These observations suggest that increased phosphorylation of H1 is one of the consequences of the persistent activation of the mitogen-activated protein kinase signal transduction pathway. Indirect immunofluorescent studies show that phosphorylated H1b is localized in centers of RNA splicing in the nucleus, suggesting that this modified H1 subtype is complexed to transcriptionally active chromatin.
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PMID:Increased phosphorylation of histone H1 in mouse fibroblasts transformed with oncogenes or constitutively active mitogen-activated protein kinase kinase. 765 28

A PC-12 pheochromocytoma cell line is described with roughly equivalent levels of functional receptors for nerve growth factor (NGF), epidermal growth factor (EGF), and insulin. Each of these receptors undergoes autophosphorylation upon binding of their respective ligands, and causes the activation of phosphatidylinositol-3 kinase via a mechanism involving tyrosine phosphorylation. In the case of insulin, this activation is due to the tyrosine phosphorylation of its major cellular substrate, IRS-1. Despite the presence of functional receptors in these cells, insulin does not stimulate the activity of the mitogen-activated protein (MAP) kinase, despite a 5- to 8-fold activation observed with both NGF and EGF under the same conditions. This failure to activate MAP kinase was not due to the insulin-dependent dephosphorylation of the enzyme, but correlated with the lack of activation of the MAP kinase kinase, although this enzyme was also activated by NGF and EGF. Similarly, the activation of the raf and ras protooncogenes in these cells was not observed with insulin, whereas NGF and EGF produced marked activation. In addition, insulin-dependent induction of the c-fos protein was impaired, in comparison to NGF. In contrast to a lack of effect on the MAP kinase pathway, these PC-12 cells were metabolically responsive to insulin, exhibiting increases in glucose, lipid, and protein synthesis in response to the hormone. The differential responses of phosphorylation events to insulin, NGF, and EGF in these cells indicates that divergence of signaling pathways may occur at or near the insulin receptor.
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PMID:Divergence of signaling pathways for insulin in PC-12 pheochromocytoma cells. 768 84

In view of the potent mitogenic effect exerted by insulin in human colonic cells, we used Caco-2 cells transfected with an activated (Val12) human Ha-ras gene or the polyoma middle T (PyMT) oncogene, a constitutive activator of pp60c-src tyrosine kinase activity, to investigate the effect of oncogenic p21ras and PyMT/pp60c-src on insulin mitogenic signaling. As compared to vector control Caco-2 cells, both oncogene-transfected cells exhibited: 1) a lost of response to insulin's stimulatory effect on mitogen-activated protein (MAP) kinase activity and cell proliferation, both of which were constitutively increased; 2) a decrease in insulin receptor (IR) affinity and insulin-stimulated exogenous tyrosine kinase activity, which resulted, at least in part, from increased protein kinase C (PKC) activity (4), since both IR alterations were partially corrected by PKC down-regulation; and 3) a decrease in both insulin receptor mRNA level and insulin receptor number, which was independent of PKC since it persisted after PKC down-regulation. In conclusion, oncogenic p21ras and PyMT/pp60c-src abolished insulin mitogenic signaling in Caco-2 cells through mechanisms involving (i) constitutive activation of MAP kinase, and (ii) marked decreases in both insulin receptor function and expression which were mediated by PKC-dependent and PKC-independent pathways respectively. This is the first evidence that, when oncogenically activated, p21ras and pp60c-src not only exert a negative control on insulin receptor function but also repress insulin receptor gene expression in human colonic cells.
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PMID:[Oncogenic activation of p21(ras) and pp60(c-src) in human colonic Caco-2 cells decreases insulin receptor function and expression through protein kinase C-dependent and independent pathways]. 773 71

The epidermal growth factor receptor, EGFR, has been implicated in cell transformation in both mammalian and avian species. The v-ErbB oncoprotein is an oncogenic form of the chicken EGFR. The tyrosine kinase activity of this oncoprotein is required for transformation, but no transformation-specific cellular substrates have been described to date. Recently activation of the ras signal transduction pathway by the EGFR has been shown to involve the Shc and Grb2 proteins. In this communication, we demonstrate that the Shc proteins are phosphorylated on tyrosine residues and are complexed with Grb2 and the chicken EGFR following ligand activation of this receptor. In fibroblasts and erythroid cells transformed by the avian erythroblastosis virus (AEV) strains H and ES4, the Shc proteins are found to be constitutively phosphorylated on tyrosine residues. The tyrosine-phosphorylated forms of the AEV strain H v-ErbB protein are found in a complex with Shc and Grb2, but the Shc proteins do not bind to the AEV strain ES4 v-ErbB protein. Mutant forms of the v-ErbB protein (in which several of the tyrosines that become autophosphorylated have been deleted by truncation) are unable to transform erythroid cells but can still transform fibroblasts. Analysis of cells transformed by one of these mutants revealed that the truncated v-ErbB protein could no longer bind to either Shc or Grb2, but this oncoprotein still gave rise to tyrosine-phosphorylated Shc proteins that complexed with Grb2 and led to activation of mitogen-activated protein (MAP) kinase. The results suggest that stable binding of Grb2 and Shc to the v-ErbB protein is not necessary to activate this signal transduction pathway and assuming that the mutant activate MAP kinase in erythroid cells in a manner similar to that of fibroblasts, that activation of this pathway is not sufficient to transform erythroid cells.
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PMID:Analysis of the role of the Shc and Grb2 proteins in signal transduction by the v-ErbB protein. 790 55

The aim of this study was to explore the role of protein kinase C (PKC) in the activation of mitogen-activated protein kinases (MAPK) in T lymphocytes. The MAPK extracellular signal-regulated kinase-2 (ERK2) is activated in response to phorbol esters which stimulate PKC, by transient expression of a constitutively active ras mutant by cell activation via the G protein-coupled type 1 muscarinic acetylcholine receptor (HM1R) or in response to triggering of the T cell antigen receptor (TCR). The relative contribution of PKC to TCR and HM1R regulation of ERK2 was explored by examining the effects of a PKC inhibitor (Ro 31-8425) on ERK2 activation. The data demonstrate that phorbol ester and HM1R regulation of ERK2 was prevented by the PKC inhibitor, but that the inhibitor had no effect on ERK2 activation induced by expression of a constitutively active ras mutant p21v-Ha-ras. Furthermore, the TCR stimulates both PKC and p21ras but TCR regulation of ERK2 was only weakly suppressed by the PKC inhibitor. These data indicate that PKC has a potential but not a predominant role in TCR regulation of ERK2.
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PMID:The role of protein kinase C in the regulation of extracellular signal-regulated kinase by the T cell antigen receptor. 792 76

Mitogenic signals initiated at the plasma membrane by extracellular factors acting on receptor tyrosine kinases or G protein-coupled receptors are transmitted to the nucleus through an intricate signaling network. Components of this network participate, upon stimulation, in a complex array of phosphorylation-dependent protein-protein interactions which leads to the formation of transient multimolecular complexes. Complexes containing products of the protooncogenes ras and raf-1 and the protein kinase MEK-1 activate the mitogen-activated protein kinases (MAPKs), which play a central role in the integration of different mitogenic signals by directly phosphorylating cytoplasmic and nuclear targets. In this report we present evidence that the kinase encoded by the tumor progression locus 2 gene (Tpl-2) contributes to the activation of the MAPK cascade. MAPK activation induced by the Tpl-2 protein is blocked by dominant negative mutants of Ras and Raf-1, whereas a kinase-deficient Tpl-2 mutant down-regulates mitogenic signals induced by v-Ha-Ras or v-Raf. These data suggest that Tpl-2 activates the MAPK cascade, perhaps through its participation in the assembly of Ras/Raf-1-containing multimolecular complexes.
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PMID:Tpl-2 acts in concert with Ras and Raf-1 to activate mitogen-activated protein kinase. 793 86

Biological effects related to cell growth, as well as a role in the pathogenesis of Alzheimer disease, have been ascribed to the beta-amyloid precursor protein (beta-APP). Little is known, however, about the intracellular cascades that mediate these effects. We report that the secreted form of beta-APP potently stimulates mitogen-activated protein kinases (MAPKs). Brief exposure of PC-12 pheochromocytoma cells to beta-APP secreted by transfected Chinese hamster ovary cells stimulated the 43-kDa form of MAPK by > 10-fold. Induction of a dominant inhibitory form of ras in a PC12-derived cell line prevented the stimulation of MAPK by secreted beta-APP, demonstrating the dependence of the effect upon p21ras. Because the microtubule-associated protein tau is hyperphosphorylated in Alzheimer disease, we sought and found a 2-fold enhancement in tau phosphorylation associated with the beta-APP-induced MAPK stimulation. In the ras dominant inhibitory cell line, beta-APP failed to enhance phosphorylation of tau. The data presented here provide a link between secreted beta-APP and the phosphorylation state of tau.
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PMID:Secreted beta-amyloid precursor protein stimulates mitogen-activated protein kinase and enhances tau phosphorylation. 804 53

The Jun gene family encode components of the AP-1 transcription factor complex that regulate a variety of TRE-containing target promoters. Expression of family members is induced by a wide variety of extracellular stimuli and thought to be important in mediating cellular proliferation and differentiation. We have localized cis-acting DNA sequences in the murine junB promoter capable of mediating transcriptional activation by the proto-oncogene products c-Ets-1 and c-Ets-2. We show by promoter deletion analysis that multiple elements located between -848 and -574, and between -196 and -91 can mediate transactivation by ETS-family members in different cell types. In vitro DNA binding assays indicate that the elements identified can specifically interact with c-Ets-1 protein. Furthermore, we show that ETS-transactivation of a variety of reporter constructs is dramatically enhanced by introduction of oncogenic Ha-ras. The activation of Ras by extracellular stimuli invokes a phosphorylation cascade that includes the downstream mitogen-activated protein (MAP) kinase p44ERK-1. We further show that addition of activated p44ERK-1 MAP kinase can also enhance ETS-transactivation of junB promoter reporter constructs. Here we propose that ETS-family members play a role in the activation of junB transcription by a Ras-stimulated signal transducing pathway that includes MAP kinase(s).
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PMID:junB promoter regulation: Ras mediated transactivation by c-Ets-1 and c-Ets-2. 810 35

Expression of the human CL100 gene is induced in skin fibroblasts in response to oxidative/heat stress and growth factors. The CL100 gene encodes a dual specificity (Tyr/Thr) protein phosphatase that specifically inactivates mitogen-activated protein (MAP) kinase in vitro. In addition, CL100 is able to suppress the activation of MAP kinase by oncogenic ras in extracts of Xenopus oocytes. Thus, the CL100 phosphatase may play an important role in the negative regulation of cellular proliferation and is a likely candidate for a tumour-suppressor gene. Here, we show that DNA sequences homologous to CL100 are present in genomic DNA isolated from mouse, chicken, Xenopus and Drosophila, indicating that the CL100 gene is highly conserved. Using an assay based on the polymerase chain reaction, in conjunction with genomic DNA obtained from human-rodent somatic-cell hybrids, we have determined that the CL100 gene is situated on chromosome 5. Fluorescence in situ hybridisation using a CL100 genomic probe confirms that the CL100 mRNA is transcribed from a single genetic locus and maps the gene to 5q34.
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PMID:The CL100 gene, which encodes a dual specificity (Tyr/Thr) MAP kinase phosphatase, is highly conserved and maps to human chromosome 5q34. 816 26

Although the human Ras proteins are members of a large superfamily of Ras-related proteins, to date, only the proteins encoded by the three mammalian ras genes have been found to possess oncogenic potential. Among the known Ras-related proteins, TC21/R-Ras2 exhibits the most significant amino acid identity (55%) to Ras proteins. We have generated mutant forms of TC21 that possess amino acid substitutions analogous to those that activate Ras oncogenic potential [designated TC21(22V) and TC21(71L)] and compared the biological properties of TC21 with those of Ras proteins in NIH 3T3 and Rat-1 transformation assays. Whereas wild-type TC21 did not show any transforming potential in vitro, both TC21(22V) and TC21(71L) displayed surprisingly potent transforming activities that were comparable to the strong transforming activity of oncogenic Ras proteins. Like Ras-transformed cells, NIH 3T3 cells expressing mutant TC21 proteins formed foci of morphologically transformed cells in monolayer cultures, proliferated in low serum, formed colonies in soft agar, and developed progressive tumors in nude mice. Thus, TC21 is the first Ras-related protein to exhibit potent transforming activity equivalent to that of Ras. Furthermore, mutant TC21 proteins also stimulated constitutive activation of mitogen-activated protein kinases as well as transcriptional activation from Ras-responsive promoter elements (Ets/AP-1 and NF-kappa B). We conclude that aberrant TC21 function may trigger cellular transformation via a signal transduction pathway similar to that of oncogenic Ras and suggest that deregulated TC21 activity may contribute significantly to human oncogenesis.
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PMID:Aberrant function of the Ras-related protein TC21/R-Ras2 triggers malignant transformation. 819 49


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