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)

Transformation is accompanied by the down-regulation of the high molecular weight isoforms of non-muscle tropomyosin. Several lines of evidence suggest that tropomyosin down-regulation may be essential for ras-induced tumorigenicity. It is unclear which of the many signaling pathways downstream of Ras are involved in tropomyosin down-regulation. Here we demonstrate that Raf activation induces tropomyosin down-regulation comparable to that induced by Ras. Expression of the effector-domain mutant Ras-G12V,Y40C, which is unable to bind Raf, induced only modest down-modulation of tropomyosin. Treatment with the MEK-specific inhibitor PD98059 had little effect on tropomyosin levels in ras- or raf-transformed cells. In contrast, a mutant form of MEK-1, MEK-1-S218A,S222A, restored tropomyosin levels in ras-transformed NIH3T3 cells almost to the levels observed in non-transformed cells. MEK-1-S218A,S222A does not inhibit MEK phosphorylation and is a poor inhibitor of ERK phosphorylation. These data suggest that this mutant form of MEK-1 interferes with a yet uncharacterized pathway controlled by Raf. We conclude that the ras-induced down-modulation of tropomyosin is predominantly Raf-mediated, but MEK-independent, and that a novel pathway exists downstream of Raf which may play an important role in regulation of the cytoskeleton.
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PMID:Ras- and Raf-induced down-modulation of non-muscle tropomyosin are MEK-independent. 982 96

EGF stimulates gene expression through a variety of signal transduction pathways that include the ras-Erk pathway. We have shown previously that EGF receptor activation stimulates gastrin gene expression through a GC-rich element called gERE. This element binds Sp1 family members and raises the possibility that the ras-Erk signal transduction cascade may target this novel EGF responsive element. Moreover, it is known that Erk 2 is capable of phosphorylating other mitogen-inducible transcription factors, e.g., Elk, Sap suggesting that Erk may also inducibly phosphorylate Sp1. To test this hypothesis directly using cotransfection experiments, we show that ras and Erk 2 activation indeed target the gERE element. The Mek 1 kinase inhibitor, PD98059, blocks 50% of EGF-inducible gastrin promoter activity. Pretreatment of the extracts with recombinant Erk2 stimulated Sp1 binding; whereas dephosphorylation reduced but did not eliminate Sp1 binding. Together, these studies demonstrate the novel finding that inducible binding of Sp1 is regulated by its state of phosphorylation. Further, gastrin promoter activation is mediated in part by the ras-Erk signaling cascade that targets Sp1.
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PMID:Sp1 phosphorylation by Erk 2 stimulates DNA binding. 991 60

The in vitro phosphorylation of transcription factors by growth factor-activated protein kinases has resulted in the discovery of a number of activities whose identities and relationships to one another are unclear. Fos kinase is a growth factor-stimulated serine/threonine protein kinase that phosphorylates c-Fos at serine 362 within the carboxyl-terminal regulatory domain. Fos kinase activation is dependent on p21(ras) and mitogen-activated protein kinase/ERK kinase kinase (MEK) activity and is independent of phosphatidylinositol 3-kinase activity. We have purified Fos kinase by affinity chromatography using the Sepharose-linked protein kinase inhibitor, bisindolylmaleimide (BIM). Fos kinase has an apparent molecular mass of 88 kDa, and mass spectrophotometric analysis of the isolated protein showed that it produced tryptic fragments identical to those predicted for pp90(rsk2). Fos kinase isolated from nerve growth factor-stimulated PC12 cells is indistinguishable from NGFI-B kinase I, based on their chromatographic behavior, substrate specificities, and relative sensitivity to BIM. Furthermore, we have distinguished Fos kinase from calcium/cAMP response element-binding protein (CREB) kinase. Therefore, Fos kinase and NGFI-B kinase I and pp90(rsk2) represent the same protein kinase species. Moreover, we report that pp90(rsk2) exists within nerve growth factor-stimulated PC12 cells as two chromatographically and immunologically distinct species. Finally, we demonstrate that CREB kinase is distinct from pp90(rsk2).
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PMID:Transcription factor phosphorylation by pp90(rsk2). Identification of Fos kinase and NGFI-B kinase I as pp90(rsk2). 992 Aug 81

Adult rat chromaffin cells may proliferate or extend neurites when stimulated by nerve growth factor (NGF) but their response is predominantly proliferative, making them a unique model for studying how mitogenic specificity is achieved. We examined contributions of the NGF receptors trk and p75 and of the major NGF signaling pathways to proliferation versus neurite outgrowth. The type of initial NGF response does not correlate with intensity of immunoreactivity for trk or p75. However, proliferation is initiated at lower NGF concentrations than neurite outgrowth, suggesting that it requires a less intense signal. Mitogenic cooperativity between receptors at low NGF concentrations is suggested by inhibitory effects of p75-blocking antibodies, but responses to trk-agonist antibody indicate that trk activation alone can induce proliferation. NGF-induced phosphorylation of ras-mediated mitogen-activated protein kinases (MAPK) Erk1 and Erk2 is as prolonged in normal chromaffin cells as in PC12 cells, where NGF is neuritogenic. Trk-agonist antibody, which is as mitogenic as NGF but less neuritogenic, causes equally prolonged but less intense ERK phosphorylation. The MAPK kinase(MEK-1) inhibitor PD98059 partially inhibits Erk phosphorylation and does not inhibit chromaffin cell proliferation, while depolarization selectively inhibits proliferation without blocking Erk phosphorylation. Proliferation is markedly reduced by the phosphoinositol-3 (PI-3) kinase inhibitor LY294002 while downregulation of protein kinase C (PKC) causes no change. These findings suggest that low-level, rather than short-duration, stimulation of NGF signaling pathways causes NGF to be mitogenic. Ras-mediated MAPK activation may be more critical in neurite outgrowth than in proliferation and PI-3 kinase may be the major mitogenic determinant.
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PMID:Nerve growth factor receptor signaling in proliferation of normal adult rat chromaffin cells. 993 50

In patients with non-small cell lung cancer (NSCLC), tumor expression of P21-Ras, HER2, P53, and Bcl-2 has been reported as independent predictors of prognosis. However, the prognostic information carried by these proteins has usually been determined separately, and their potential interaction has not been taken into account. We conducted immunostaining for P21-Ras, HER2, P53 and Bcl-2 on 238 cases of NSCLC in a Korean population with 203 squamous cell carcinomas, and 35 adenocarcinomas. P21-Ras, HER2, P53 or Bcl-2 was expressed at high levels in 54.6, 42.0, 18.1 and 71.8% of the NSCLC studied, respectively. A total of 59 tumors (24.8%) expressed only one protein, while 70 (29.4%) expressed two, 59 (24.8) expressed three, and 17 tumors (7.1%) expressed all four proteins. Univariate analysis testing the association of marker expression with survival found Bcl-2 expression to be significantly associated with a poor prognosis, as well as the co-expression of Bcl-2 + HER2, Bcl-2 + HER2 + P53, and Bcl-2 + HER2 + P53 + P21-ras with an increasing hazard ratio. By multivariate analysis controlling for age, tumor stage and tumor type, only the combination of Bcl-2 + HER2 expression was an independent marker of poor prognosis (hazard ratio = 1.91, P = 0.003). Thus, a prospective analysis of the co-expression of Bcl-2 + HER2 in NSCLC patients may identify patients with a poor prognosis who may benefit from more aggressive therapy.
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PMID:The interactive effect of Ras, HER2, P53 and Bcl-2 expression in predicting the survival of non-small cell lung cancer patients. 1004 71

Our previous studies in the hamster pancreatic cancer model have indicated that pancreatic ductal adenocarcinomas derive not only from ductal/ductular cells but also from islets. To verify the presence of carcinogen-responsive cells within islets, we tested the effect of the pancreatic carcinogen N-nitrosobis(2-oxopropyl)amine (BOP) on recently established continuous hamster pancreatic islet culture. Isolated pure pancreatic islets of hamsters were treated in vitro with BOP at a concentration of 0.25 mM three times a week for 19 weeks. Each treatment week was designed as a stage. The growth of these cells, designated KL5B, was compared with untreated cultured islets, designated KL5N. As in our previous study, between 14 and 21 days of culture, exocrine and intermediary cells developed within both KL5N and KL5B islets, which were then replaced by undifferentiated cells. No differences were found in the growth patterns of KL5N and KL5B until stage 4, when KL5B cells showed accelerated cell growth and cell pleomorphism, which increased gradually at later stages of treatment. Anchorage-independent and in vivo growth did not appear until stage 19. Mutation of c-Ki-ras at codon 12 (GGT-->GAT) was detected in KL5B cells but not in KL5N cells. In vivo KL5B cells formed anaplastic invasive cancer with areas of glandular formation, overexpressed TGF-alpha and EGFR, expressed cytokeratin, vimentin, laminin and alpha-1 antitrypsin and reacted strongly with L-phytohemagglutinin and tomato lectin. Some cells within islets are responsive to the carcinogenic effects of BOP. Whether these cells represent islet cell precursors (stem cells) or malignant transdifferentiated islet cells remains to be seen.
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PMID:Induction of adenocarcinoma from hamster pancreatic islet cells treated with N-nitrosobis(2-oxopropyl)amine in vitro. 1006 71

Although an important contribution of ERK and JNK mitogen-activated protein kinase (MAPK) activation in Ras transformation of rodent fibroblasts has been determined, their role in mediating oncogenic Ras transformation of human tumor cells remains to be established. We have utilized the human HT1080 fibrosarcoma and DLD-1 colon carcinoma cell lines, which contain endogenous mutated and oncogenic N- and K-ras alleles, respectively, to address this role. Study of these cells is advantageous over Ras-transformed rodent model cell systems for two key reasons. First, the ras mutations occurred naturally in the progression of the tumors from which the cell lines were derived, rather than due to overexpression of an exogenously introduced gene. Second, although these tumor cells possess defects in multiple genetic loci, it has been established that mutated Ras contributes significantly to the transformed phenotype of these cells. Clonal variant lines of HT1080 and DLD-1 have been isolated which have lost the oncogenic ras allele and exhibit a corresponding impairment in growth transformation in vitro and in vivo. We found that upregulation of Raf/MEK/ERK and JNK correlated with expression of oncogenic Ras in HT1080, but not DLD-1 cells. Furthermore, inhibition of ERK activation in parental HT1080 cells caused the same changes in cell morphology and actin stress fiber organization seen with loss of expression of activated N-Ras(61K). Thus, we suggest that constitutive activation of the Raf/MEK/ERK and JNK pathways is necessary for Ras-induced transformation of HT1080 but not DLD-1 cells. These results emphasize that cell type differences exist in the signaling pathways by which oncogenic Ras causes transformation.
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PMID:Differential contribution of the ERK and JNK mitogen-activated protein kinase cascades to Ras transformation of HT1080 fibrosarcoma and DLD-1 colon carcinoma cells. 1008 35

The AChR is a pentamer of four different subunits in a stoichiometry of alpha2betagammadelta in embryonic and alpha2betaepsilondelta in adult animals. Transcription of AChR subunit genes is most active in synaptic nuclei in adult skeletal muscle cells, and is regulated by neural factors such as ARIA. We report here that ARIA up-regulated specifically the expression of all five AChR subunits in C2C12 cells. The mRNA level of erbB2, erbB3, rapsyn, MuSK, SHP-2 and beta-actin remained unchanged in response to ARIA stimulation in C2C12 cells. The ARIA-induced increase in AChR subunit expression in C2C12 cells was inhibited by the erbB kinase inhibitor tyrphostin AG1478 and the MEK inhibitor PD98059, but not by the PI3 kinase inhibitor wortmannin, suggesting an important role of the erbB protein tyrosine kinases and MAP kinase in the regulation of the expression of the five different AChR subunits. To determine the signaling pathways in vivo, we studied the expression of reporter genes driven by the epsilon-promoter in injected muscles. The in vivo expression of the epsilon-transgene was inhibited by co-expression of dominant negative mutants of key components in the MAP kinase pathway including ras, raf and MEK, but not the dominant negative mutant of PI3 kinase. These results suggest that ERK MAP kinase activation is required for ARIA-induced increase in all five AChR subunit mRNAs as well as synapse-specific expression of AChR epsilon-transgene.
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PMID:ERK MAP kinase activation is required for acetylcholine receptor inducing activity-induced increase in all five acetylcholine receptor subunit mRNAs as well as synapse-specific expression of acetylcholine receptor epsilon-transgene. 1010 Dec 28

Mutations are defined as stable and irreversible modifications of the normal genetic message due to small changes in the number or type of bases, or to large modifications of the genome such as deletions, insertions or chromosome rearrangements. These lesions are due to either polymerase errors during normal DNA replication or unrepaired DNA lesions, which will give rise to mutations through a mutagenic pathway. The molecular process leading to mutagenesis depends largely on the type of DNA lesions. Base modifications, such as 8-oxo-guanine or thymine glycol, both induced by ionizing radiations (IR), are readily replicated leading to direct mutations, usually base-pair substitutions. The 8-oxo-G gives rise predominantly to G to T transversions, the type of mutations found in ras or p53 gene from IR-induced tumors. Bulky adducts produced by chemical carcinogens or UV-irradiation are usually repaired by the nucleotide excision repair (NER) pathway which is able to detect structural distortion in the normal double-strand DNA backbone. These lesions represent a blockage to DNA and RNA polymerases as well as some signal for p53 accumulation in the damaged cell. In the absence of repair, these lesions could be eventually replicated owing to the induction of specific proteins at least in bacteria during the SOS process. The precise nature of the error-prone replication across an unexcised DNA lesion in the template is not fully understood in detailed biochemical terms, in mammalian cells. IR basically produce a very large number of DNA lesions from unique base modifications to single- or double-strand breaks and even complex DNA lesions due to the passage of very high energy particles or to a local re-emission of numerous radicals. The breakage of the double-helix is a difficult lesion to repair. Either it will result in cell death or, after an incorrect recombinational pathway, it will induce frameshifts, large deletions or chromosomal rearrangements. Most of the IR-induced mutations are recessive ones, requiring therefore a second genetic event in order to exhibit any harmful effect and a long latency period before the development of a radiation-induced tumor. The fact that IR essentially induced deletions and chromosomal translocations renders very difficult the use of the p53 gene as a marker for mutation analysis. In agreement with the type of lesions induced by IR, it is interesting to point out that the presence has been observed, in a vast majority of radiation-induced papillary thyroid carcinomas (PTC), of an activated ret proto-oncogene originated by the fusion of the tyrosine kinase 3' domain of this gene with the 5' domain of four different genes. These ret chimeric genes which are due to intra- or inter-chromosomal translocations, were called RET/PTC1 to PTC5. The RET/PTC rearrangements were found in PTC from children contaminated by the Chernobyl fall-out as well as in tumours from patients with a history of therapeutic external radiation, with a frequency of 60-84%. This frequency was only 15% in 'spontaneous' PTC. The type of ret chimeric gene predominantly originated by the accidental or therapeutic IR was different. Indeed, PTC1 was present in 75% of the tumours linked to a therapeutic radiation and PTC3 in 75% of the Chernobyl ones. The other forms of RET/PTC were observed in only a minority of the post-Chernobyl PTC (< 20%). The difference in the frequency of PTC1 and PTC3 in both types of PTC, is statistically significant (P < 10(-5), Fischer's exact test). In two of the post-therapeutic radiation PTC, RET/PTC1 and PTC3 were simultaneously present. A PTC1 gene was also observed in 45% of the adenomas appearing after therapeutic radiation. The long-period of latency between exposure to IR and the appearance of thyroid tumours is probably due to the conversion of a heterozygote genotype of IR-induced mutations to a homozygote one. It will be interesting to use this time lag in accidental or therapeutic-irradiated p
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PMID:Mechanisms of mutagenesis in mammalian cells. Application to human thyroid tumours. 1019 66

Epidemiological and experimental data suggest that dietary fiber and fat are major determinants of colorectal cancer. However, the mechanisms by which these dietary constituents alter the incidence of colon cancer have not been elucidated. Evidence indicates that dominant gain-of-function mutations short-circuit protooncogenes and contribute to the pathogenesis of cancer. Therefore, we began to dissect the mechanisms whereby dietary fat and fiber, fed during the initiation, promotion and progression stages of colon tumorigenesis, regulate ras p21 localization, expression and mutation frequency. Male Sprague-Dawley rats (140) were provided with corn oil or fish oil and pectin or cellulose plus or minus the carcinogen azoxymethane (AOM) in a 2 x 2 x 2 factorial design and killed after 34 weeks. We have previously shown adenocarcinoma incidence in these animals to be 70.3% (52/74) for corn oil + AOM and 56.1% (37/66) for fish oil + AOM (P < 0.05). Total ras expression as well as ras membrane:cytosol ratio was 4- to 6-fold higher in colon tumors than in mucosa from AOM- or saline-injected rats. Expression of ras in the mucosal membrane fraction was 13% higher for animals fed corn oil compared with fish oil feeding (P < 0.05), which is noteworthy since ras must be localized at the plasma membrane to function. The elevated ras membrane:cytosol ratio in tumors was not due to increased farnesyl protein transferase activity or prenylation state, as nearly all detectable ras was in the prenylated form. Phosphorylated p42 and p44 mitogen activated protein kinase (ERK) expression was two-fold higher in tumor extracts compared with uninvolved mucosa from AOM- and saline-injected rats (P < 0.05). The frequency of K-ras mutations was not significantly different between the various groups, but there was a trend toward a greater incidence of mutations in tumors from corn oil fed rats (85%) compared with fish oil fed rats (58%). Our results indicate that the carcinogen-induced changes in ras expression and membrane localization are associated with the in vivo activation of the ERK pathway. In addition, suppression of tumor development by dietary n-3 polyunsaturated fatty acids may be partly due to a combined effect on colonic ras expression, membrane localization, and mutation frequency.
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PMID:Carcinogen and dietary lipid regulate ras expression and localization in rat colon without affecting farnesylation kinetics. 1033 94

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