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)

The expression of the urokinase-type plasminogen activator, which plays a crucial role in tissue remodeling by controlling the synthesis of the broadly acting plasmin serine protease, is regulated by several tyrosine kinases. Since the actions of these tyrosine kinases is dependent on the activation of ras proteins, we undertook a study to identify signaling events downstream of ras responsible for the stimulation of urokinase promoter activity. Transient expression of an activated c-Ha-ras in OVCAR-3 cells, which do not harbor the mutated oncogene, led to a dose-dependent trans-activation of the urokinase promoter. A sequence residing between -2109 and -1964 was critical for the stimulation of the urokinase promoter by c-Ha-ras. Mutation of an AP-1 and a PEA3 site at -1967 and -1973, respectively, or the co-expression of a transactivation domain-lacking c-jun substantially impaired the ability of c-Ha-ras to stimulate urokinase promoter activity. The induction of the urokinase promoter by ras was completely blocked by expression of a dominant negative c-raf expression vector and substantially reduced in cells made to co-express a catalytically inactive mitogen-activated protein kinase kinase. Further, the expression of an ERK1/ERK2-inactivating phosphatase (CL100) abrogated the stimulation of the urokinase promoter by c-Ha-ras. These data argue for a role of a mitogen-activated protein kinase-dependent signaling pathway in the regulation of urokinase promoter activity by ras.
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PMID:Involvement of a mitogen-activated protein kinase signaling pathway in the regulation of urokinase promoter activity by c-Ha-ras. 755 39

A pyrazolo-quinoline compound, 6-methoxy-4-[2-[(2-hydroxyethoxyl)-ethyl]amino]-3-methyl-1M-pyrazo lo [3,4-b]quinoline (SCH 51344), was identified based on its ability to derepress human smooth muscle alpha-actin promoter activity in ras-transformed cells. In this study, we show that SCH 51344 reverts several key aspects of ras transformation, such as morphological changes, actin filament organization, and anchorage-independent growth, and also inhibits Val-12 Ras-induced maturation of Xenopus oocytes. SCH 51344 is also a potent inhibitor of the anchorage-independent growth of human tumor lines known to contain multiple genetic alterations in addition to activated ras genes. We have sought to determine whether SCH 51344 disrupts the signaling pathway that activates mitogen-activated protein (MAP) kinase or extracellular signal-regulated kinase (ERK) in normal and ras-transformed fibroblast cells. NIH 3T3 cells transformed by different oncogenes, which have products that participate at different steps of the Ras signaling pathway, were tested in a soft-agar colony formation assay to determine which step of the pathway is inhibited by SCH 51344. Our results indicate that SCH 51344 inhibits the ability of v-abl, v-mos, H-ras, v-raf, and mutant active MAP kinase kinase-transformed NIH 3T3 cells to grow in soft agar. Only v-fos-transformed cells were found to be resistant to the treatment of SCH 51344. SCH 51344 treatment had very little effect, if any, on the activation of MAP kinase kinase, MAP kinase, and p90RSK activity in response to growth factor stimulation. Treatment of ras-transformed cells with SCH 51344 led to stimulation of serum response factor DNA binding activity and activation of serum response element-dependent gene transcription, accounting for its ability to activate alpha-actin promoter activity in ras-transformed cells. Our results indicate that SCH 51344 inhibits ras transformation by a novel mechanism and acts at a point either downstream or parallel to extracellular signal-regulated kinase-dependent Ras signaling pathway.
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PMID:SCH 51344 inhibits ras transformation by a novel mechanism. 758 59

Farnesyl protein transferase (FPTase) catalyzes the first of a series of posttranslational modifications of Ras required for full biological activity. Peptidomimetic inhibitors of FPTase have been designed that selectively block farnesylation in vivo and in vitro. These inhibitors prevent Ras processing and membrane localization and are effective in reversing the transformed phenotype of Rat1-v-ras cells but not that of cells transformed by v-raf or v-mos. We have tested the effect of the FPTase inhibitor L-744,832 (FTI) on the anchorage-dependent and -independent growth of human tumor cell lines. The growth of over 70% of all tumor cell lines tested was inhibited by 2-20 microM of the FTI, whereas the anchorage-dependent growth of nontransformed epithelial cells was less sensitive to the effects of the compound. No correlation was observed between response to drug and the origin of the tumor cell or whether it contained mutationally activated ras. In fact, cell lines with wild-type ras and active protein tyrosine kinases in which the transformed phenotype may depend on upstream activation of the ras pathway were especially sensitive to the drug. To define the important targets of FTI action, the mechanism of cellular drug resistance was examined. It was not a function of altered drug accumulation or of FPTase insensitivity since, in all cell lines tested, FPTase activity was readily inhibited within 1 h of treatment with the inhibitor. Furthermore, the general pattern of inhibition of cellular protein farnesylation and the specific inhibition of lamin B processing were the same in sensitive and resistant cells. In addition, functional activation of Ras was inhibited to the same degree in sensitive and resistant cell lines. However, the FTI inhibited the epidermal growth factor-induced activation of mitogen-activated protein kinases in sensitive cells but not in two resistant cell lines. These data suggest that the drug does inhibit ras function and that resistance in some cells is associated with the presence of Ras-independent pathways for mitogen-activated protein kinase activation by tyrosine kinases. We conclude that FPTase inhibitors are potent antitumor agents with activity against many types of human cancer cell lines, including those with wild-type ras.
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PMID:A peptidomimetic inhibitor of farnesyl:protein transferase blocks the anchorage-dependent and -independent growth of human tumor cell lines. 758 92

ERF (ETS2 Repressor Factor) is a novel member of the ets family of genes, which was isolated by virtue of its interaction with the ets binding site (EBS) within the ETS2 promoter. The 2.7 kb ubiquitously expressed ERF mRNA encodes a 548 amino acid phosphoprotein that exhibits strong transcriptional repressor activity on promoters that contain an EBS. The localization of the DNA-binding domain of the protein at the N-terminus and th repression domain at the C-terminus is reminiscent of the organization of ELK1-like members of the ets family; however, there is no significant homology between ERF and ELK1 or any other ets member outside the DNA-binding domain. The repressor activity of ERF can antagonize the activity of other ets genes that are known transcriptional activators. Furthermore, ERF can suppress the ets-dependent transforming activity of the gag-myb-ets fusion oncogene of ME26 virus. Although ERF protein levels remain constant throughout the cell cycle, the phosphorylation level of the protein is altered as a function of the cell cycle and after mitogenic stimulation. The ERF protein is also hyperphosphorylated in cells transformed by the activated Ha-ras and v-src genes and the transcription repressor activity of ERF is decreased after co-transfection with activated Ha-ras or the kinase domain of the c-Raf-1 gene, indicating that ERF activity is probably regulated by the ras/MAPK pathway. Consistent with the in vivo phosphorylation and inactivation by ras, ERF is efficiently phosphorylated in vitro by Erk2 and cdc2/cyclin B kinases, at sites similar to those detected in vivo. Furthermore, a single mutation at position 526 results in the loss of a specific phosphopeptide both in in vivo and in vitro (by Erk2) labeling. Substitution of Thr526 for glutamic acid also decreases the repression ability of ERF. Our data suggest a model in which modulation of ERF activity is involved in the transcriptional regulation of genes activated during entry into G1 phase. Obstruction of the ERF repressor function by the transactivating members of the ets family of genes (i.e.gag-myb-ets) may be essential for the control of genes involved in cell proliferation and may also underlie their tumorigenic effects.
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PMID:ERF: an ETS domain protein with strong transcriptional repressor activity, can suppress ets-associated tumorigenesis and is regulated by phosphorylation during cell cycle and mitogenic stimulation. 758 8

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 structure of protein kinase C zeta (PKC zeta) is unusual with respect to other PKCs, as it lacks the C2 domain and possesses only one zinc finger region. Consequently, PKC zeta can not be activated by diacylglycerol or phorbol esters and is not downregulated by prolonged treatment by phorbol esters nor blocked by commonly utilized PKC inhibitors. In this study, we have explored the idea that PKC zeta might participate in proliferative pathways. Our findings show that marked overexpression of mammalian PKC zeta does not alter the growth characteristics of NIH 3T3 cells, nor induces cellular transformation. Furthermore, mammalian PKC zeta does not potentiate the transforming ability of oncogenes such as ras, sis and the muscarinic receptor m1. In this context, PKC zeta or its dominant negative mutant do not affect MAP kinase activation by oncogenes or growth factors. Taken together, our findings demonstrate that mammalian PKC zeta does not directly participate in signaling pathways involved in oncogenic transformation.
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PMID:Overexpression of mammalian protein kinase C-zeta does not affect the growth characteristics of NIH 3T3 cells. 763 44

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

Grb2 is an 'adaptor' protein made of one SH2 and two SH3 domains. The SH3 domains bind to prolinerich motifs in the C-terminal part of the ras exchange factor Sos. Binding of the Grb2 SH2 domain to phosphotyrosine motifs on receptors, or other adaptor proteins such as Shc, recruits this Grb2/Sos complex at the plasma membrane where Sos stimulates nucleotide exchange on ras, then ras activates raf and leads to MAP kinase activation. The structure of Grb2, the precise motifs recognised by its SH2 and SH3 domains, the way Grb2 performs its function, a possible regulation of its association with Sos, and its ability to complex with other proteins in vivo, are discussed.
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PMID:The Grb2 adaptor. 764 83

Treatment of cells with a variety of growth factors triggers a phosphorylation cascade that leads to activation of mitogen-activated protein kinases (MAPKs, also called extracellular signal-regulated kinases, or ERKs). We have identified a synthetic inhibitor of the MAPK pathway. PD 098059 [2-(2'-amino-3'-methoxyphenyl)-oxanaphthalen-4-one] selectively inhibited the MAPK-activating enzyme, MAPK/ERK kinase (MEK), without significant inhibitory activity of MAPK itself. Inhibition of MEK by PD 098059 prevented activation of MAPK and subsequent phosphorylation of MAPK substrates both in vitro and in intact cells. Moreover, PD 098059 inhibited stimulation of cell growth and reversed the phenotype of ras-transformed BALB 3T3 mouse fibroblasts and rat kidney cells. These results indicate that the MAPK pathway is essential for growth and maintenance of the ras-transformed phenotype. Further, PD 098059 is an invaluable tool that will help elucidate the role of the MAPK cascade in a variety of biological settings.
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PMID:A synthetic inhibitor of the mitogen-activated protein kinase cascade. 764 77

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


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