Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.24 (mitogen-activated protein kinase)
 95,810 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Normal cells irreversibly stop dividing after being exposed to a variety of stresses. This state, called cellular senescence, has recently been demonstrated to act as a tumor-suppressing mechanism in vivo. A common set of features are exhibited by senescent cells, but the molecular mechanism leading to the state is poorly understood. It has been shown that p38, a stress-induced mitogen-activated protein kinase (MAPK), plays a pivotal role in inducing cellular senescence in diverse settings. To better understand the senescence-inducing pathway, microarray analyses of normal human fibroblasts that ectopically activated p38 were performed. It was found that five genes encoding ESE-3, inhibin betaA, RGS5, SSAT and DIO2 were up-regulated in senescent cells induced by RasV12, H(2)O(2) and telomere shortening, but not in quiescent or actively growing cells, suggesting that these genes serve as molecular markers for various types of cellular senescence. The ectopic expression of ESE-3 resulted in retarded growth, up-regulation of p16(INK4a) but not of p21, and increased levels of SA-beta-gal activity. In contrast, RGS5, SSAT and the constitutive active form of the inhibin betaA receptor gene did not induce such senescence phenotypes when ectopically expressed. ESE-3 expression increased the activity of the p16(INK4a) promoter in a reporter assay, and recombinant ESE-3 protein bound to the Ets-binding sequences present in the promoter. These results suggest that ESE-3 plays a role in the induction of cellular senescence as a downstream molecule of p38.
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PMID:ESE-3, an Ets family transcription factor, is up-regulated in cellular senescence. 1762 13

The INK4 family members p16(INK4a) and p15(INK4b) negatively regulate cell cycle progression by inhibition of cyclin-dependent kinase (CDK) 4/6. Loss of p16(INK4a) functional activity is frequently observed in tumor cells, and is thought to be one of the primary causes of carcinogenesis. In contrast, despite the biochemical similarity to p16(INK4a), the frequency of defects in p15(INK4b) was found to be lower than in p16(INK4a), suggesting that p15(INK4b)-inductive agents may be useful for tumor suppression. Here we report the discovery of a novel pyrido-pyrimidine derivative, JTP-70902, which exhibits p15(INK4b)-inducing activity in p16(INK4a)-inactivated human colon cancer HT-29 cells. JTP-70902 also induced another CDK-inhibitor, p27(KIP1), and downregulated the expression of c-Myc and cyclin D1, resulting in G(1) cell cycle arrest. MEK1/2 was identified by compound-immobilized affinity chromatography as the molecular target of JTP-70902, and this was further confirmed by the inhibitory activity of JTP-70902 against MEK1/2 in kinase assays. JTP-70902 suppressed the growth of most colorectal and some other cancer cell lines in vitro, and showed antitumor activity in an HT-29 xenograft model. However, JTP-70902 did not inhibit the growth of COLO320 DM cells; in these, constitutive extracellular signal-regulated kinase phosphorylation was not detected, and neither p15(INK4b) nor p27(KIP1) induction was observed. Moreover, p15(INK4b)-deficient mouse embryonic fibroblasts were found to be more resistant to the growth-inhibitory effect of JTP-70902 than wild-type mouse embryonic fibroblasts. These findings suggest that JTP-70902 restores CDK inhibitor-mediated cell cycle control by inhibiting MEK1/2 and exerts a potent antitumor effect.
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PMID:Identification of JTP-70902, a p15(INK4b)-inductive compound, as a novel MEK1/2 inhibitor. 1778 72

Malignant melanomas make up a heterogeneous group of tumors characterized by particular genetic aberrations depending on their anatomic localization and UV exposure. Activation of the mitogen-activated protein kinase (MAPK) signaling pathway is found in the majority of melanomas, with either somatic missense mutations of BRAF or, considerably more rarely, mutations of N-RAS. The loss of both products of the CDKN2A gene, proteins p16(ARF) and p14(INK4a), or amplification of microphthalmia-associated transcriptional factor (MITF) are also predisposing factors in the development of melanoma. BRAF mutations are observed mainly in melanomas on skin liable to intermittent UV exposure. Acral and mucosal melanomas, and also melanomas on skin damaged by chronic exposure to the sun are characterized by distinct patterns of chromosomal aberrations with frequent amplifications and alterations of the KIT gene, while BRAF mutations are rarely found in these sites. Uveal melanomas show recurrent chromosomal losses (1p, 3, 6q) and gains (6p, 8q), but mutations of BRAF are hardly ever found. So far, ancillary molecular studies are not regularly applied in the routine diagnostic procedures performed when malignant melanoma is suspected. In the future, however, the development of targeted molecular therapies will require that molecular pathological techniques are used to identify the melanoma patients who will most probably benefit from a particular therapy.
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PMID:[Molecular heterogeneity of malignant melanomas]. 1788 57

Migration and proliferation of vascular smooth muscle cells (VSMCs) are important events in the progression of atherosclerosis. Insulin-like growth factor I (IGF-1) possesses both antiapoptotic and mitogenic/motogenic effects in VSMCs although the influence of life cycle on IGF-1-induced effects is unclear. This study was designed to evaluate the effect of IGF-1 on migration, proliferation, and signaling mechanisms in VSMCs from early (3-5) to late (20-22) passages. Migration, proliferation, and cell survival were measured using monolayer wounding, 3[H]-thymidine incorporation and MTT assay, respectively. Akt and ERK, which are critical to proliferation, differentiation and migration, were examined using Western blot analysis. DCF-DA fluorescence was used to quantify Reactive Oxygen Species (ROS) production. Late-passage VSMCs exhibited significantly higher basal cell proliferation and enhanced sensitivity to IGF-1-stimulated migration compared to cells from early-passages. Phosphorylated Akt and ERK levels were significantly higher in late-passage cells compared to early-passage, which was further enhanced by IGF-1 treatment. Late-passage cells exhibited higher levels of ROS production compared to early-passage, cells. IGF-1 did not significantly alter ROS levels in either passage. Expression of the cell cycle regulator p53, p21, and p16 was not affected by repeated passaging of cells. These results indicated that repeated passaging of VSMCs exhibits a phenotype which has higher proliferative capacity. Activation of trophic signaling molecules such as ERK1/2 and Akt and generation of ROS may represent the mechanisms by which repeated passages of VSMCs acquire a motogenic and mitogenic phenotype.
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PMID:Impact of insulin-like growth factor-I on migration, proliferation and Akt-ERK signaling in early and late-passages of vascular smooth muscle cells. 1796 Apr 99

In this report we show that exogenous NO added to human neuroblastoma NB69 cells inhibits cell proliferation and downregulates the epidermal growth factor receptor (EGFR) and its downstream signaling pathways. These comprise the 3-phosphoinositide-dependent kinase 1/Akt/glycogen synthase kinase-3beta pathway, the mitogen-activated protein kinase (MAPK)/extracellular-regulated kinases 1 and 2 pathway, and the phospholipase Cgamma pathway. In contrast, NO enhances the EGFR-controlled p38MAPK pathway. We also show that NO enhances the activation of the cAMP-responsive element binding protein, a transcription factor controlled by p38MAPK, as demonstrated using 4-(4-fluorophenyl)-2-(4-hydroxyphenyl)-5-(4-pyridyl)1H-imidazole (SB202190), a p38MAPK inhibitor. These processes are accompanied by the NO-mediated hypophosphorylation of the retinoblastoma protein (pRb), preferentially at Ser795 compared to Ser780 and Ser807/811, and the downregulation of p27(KIP1), p21(CIP1/WAF1), and p16(INK4a), although NO downregulated p16(INK4a) only when the p38MAPK activity was suppressed. The p38MAPK pathway controls the phosphorylation status of pRb as SB202190 enhances the hypophosphorylation of pRb. We reverted the inhibitory action of NO on EGFR and pRb phosphorylation in living cells using cell-permeable reducing agents, which suggested that reversible S-nitrosation controls these proteins. Our results support the notion that NO negatively modulates the p38MAPK-controlled phosphorylation of pRb, inducing the subsequent arrest of the cell cycle at the G1/S transition.
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PMID:Differential p38 mitogen-activated protein kinase-controlled hypophosphorylation of the retinoblastoma protein induced by nitric oxide in neuroblastoma cells. 1797 89

Activation of the extracellular signal-regulated kinase (ERK) pathway is a key factor in the regulation of cell proliferation by growth factors. Hepatocyte growth factor (HGF)-induced cell cycle arrest in the human hepatocellular carcinoma cell line HepG2 requires strong activation of the ERK pathway. In this study, we investigated the molecular mechanism of the activation. We constructed a chimeric receptor composed of the extracellular domain of the NGF receptor and the cytoplasmic domain of the HGF receptor (c-Met) and introduced a point mutation (N1358H) into the chimeric receptor, which specifically abrogates the direct binding of Grb2 to c-Met. The mutant chimeric receptor failed to mediate the strong activation of ERK, up-regulation of the expression of a Cdk inhibitor p16(INK4a) and inhibition of HepG2 cell proliferation by ligand stimulation. Moreover, the mutant receptor did not induce tyrosine phosphorylation of the docking protein Gab1. Knockdown of Gab1 using siRNA suppressed the HGF-induced strong activation of ERK and inhibition of HepG2 cell proliferation. These results suggest that coupling of Grb2 to Gab1 mediates the HGF-induced strong activation of the ERK pathway, which is required for the inhibition of HepG2 cell proliferation.
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PMID:Coupling of Grb2 to Gab1 mediates hepatocyte growth factor-induced high intensity ERK signal required for inhibition of HepG2 hepatoma cell proliferation. 1800 5

Oral squamous cell carcinoma (OSCC) is the sixth most common malignancy in humans including type I diabetic and normal rats. Tobacco and alcohol, as well as dysregulation of oncogenes and tumor suppressor genes, epigenetic changes and mitochondrial mutations have been implicated in OSCC development. Recent epidemiological studies have incriminated diabetes mellitus as a risk factor for the development of OSCC, as well as oral premalignant lesions. Recently, an animal model was employed to study the influence of diabetes on signal transduction pathways in every stage of oral cancer development, from normal mucosa to hyperplasia, dysplasia, early invasion, well differentiated OSCC and moderately differentiated OSCC. Diabetes was induced by streptozotocin and chemical carcinogenesis was induced by the carcinogen 4-nitroquinoline N-oxide. The expression of EGFR, erbB2, erbB3, FGFR-2, FGFR-3, c-myc, N-ras, ets-1, H-ras, c-fos and c-jun, the tumor suppressor genes p53 and p16, apoptosis markers Bax and Bcl-2, and the cell proliferation marker Ki-67 in the sequential stages of rat oral oncogenesis was investigated. Diabetes seems to promote the activation of the Ras/Raf/MAPK signal transduction pathway mainly by induction of erbB2 and erbB3 receptors, leading to increased cell proliferation, while there was no difference in apoptosis levels during oncogenesis.
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PMID:Diabetes and oral oncogenesis. 1822 90

Bladder cancer evolves via the accumulation of numerous genetic alterations, with loss of p53 and p16 function representing key events in the development of malignant disease. In addition, components of the epidermal growth factor receptor (EGFR) signaling pathway are frequently overexpressed, providing potential chemotherapeutic targets. We have previously described the generation of "paramalignant" human urothelial cells with disabled p53 or p16 functions. In this study, we investigated the relative responses of normal, paramalignant, and malignant human urothelial cells to EGFR tyrosine kinase inhibitors (PD153035 and GW572016), a mitogen-activated protein kinase/extracellular signal-regulated kinase (MAPK/ERK) kinase (MEK) inhibitor (U0126), and a phosphatidylinositol 3-kinase inhibitor (LY294002). The proliferation of normal human urothelial cells was dependent on signaling via the EGFR and MEK pathways and was abolished reversibly by inhibitors of EGFR or downstream MEK signaling pathways. Inhibitors of phosphatidylinositol 3-kinase resulted in only transient cytostasis, which was most likely mediated via cross-talk with the MEK pathway. These responses were maintained in cells with disabled p16 function, whereas cells with loss of p53 function displayed reduced sensitivity to PD153035 and malignant cell lines were the most refractory to PD153035 and U0126. These results indicate that urothelial cells acquire insensitivity to inhibitors of EGFR signaling pathways as a result of malignant transformation. This has important implications for the use of EGFR inhibitors for bladder cancer therapy, as combination treatments with conventional chemotherapy or radiotherapy may protect normal cells and enable better selective targeting of malignant cells.
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PMID:Sensitivity of normal, paramalignant, and malignant human urothelial cells to inhibitors of the epidermal growth factor receptor signaling pathway. 1823 62

In melanoma, at least four major signaling abnormalities have been described. They include beta-catenin deregulation (mutation/mislocalization), p16 loss, MAP kinase activation, and Akt activation. In this review, we discuss the role of the fourth pathway, known as the reactive oxygen driven tumor. The role of reactive oxygen in tumorigenesis is likely to relate to virtually all forms of cancer, and lends itself to specific therapies. These include blockade of reactive oxygen, resulting in decreased activation of NF-kappaB, which should sensitize tumors to chemotherapy and radiation. The phenotype of the reactive oxygen driven tumor can be monitored using available markers already in use in most hospital laboratories.
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PMID:The reactive oxygen-driven tumor: relevance to melanoma. 1838 5

Acute adrenergic stress is a cause of hematopoietic failure that accompanies severe injury. Although the communication between neuronal and immune system is well documented and catecholamines are known as important regulators of homeostasis, the molecular mechanisms of hematopoietic failure are not well understood. To study the influence of adrenergic stress on hematopoietic progenitor cells (HPCs), which recently have been found to express adrenergic receptors, Lin(-),Sca(+), cells were isolated and treated with alpha- and beta-adrenergic agonists in vitro. Indeed, this stimulation resulted in significantly decreased colony formation capacity using granulocyte/macrophage colony-forming unit assays. This decline was dependent on the formation of reactive oxygen species (ROS) and activation of the p38/mitogen-activated protein kinase (MAPK) pathway, since the addition of antioxidants or a p38 inhibitor restored CFU formation. DNA damage by adrenergically induced ROS, however, does not seem to account for the reduction of colonies. Thus, catecholamine/p38/MAPK is identified as a key signal transduction pathway in HPCs besides those dependent on Wnt, Notch, and sonic hedgehog. Furthermore, a well-known target of p38 signaling, p16 is transcriptionally activated after adrenergic stimulation, suggesting that cell cycle arrest might importantly contribute to hematopoietic failure and immune dysfunctions after severe injury. Since increased levels of catecholamines are also observed in other conditions, such as during aging which is linked with decline of immune functions, adrenergic stress might as well contribute to the lowered immune defence in the elderly.
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PMID:Acute adrenergic stress inhibits proliferation of murine hematopoietic progenitor cells via p38/MAPK signaling. 1844 87


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