EC:2.7.11.24 - FACTA Search

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)

(-)-Epigallocatechin gallate (EGCG), one of the constituents of green tea known to have a tumor preventing effect, inhibited maturation of Xenopus laevis oocytes induced by progesterone when this polyphenol was microinjected into oocytes at a final concentration of about 1 mM. Western blot and activity measurement analyses showed that Mos translation and the subsequent activations of mitogen-activated protein kinase and p90(rsk), probably by protein phosphorylation, seemed to have been inhibited by the microinjection of EGCG. These results suggest that EGCG may have the ability to control Xenopus oocyte maturation at least during the stage of Mos activation.
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PMID:(-)-Epigallocatechin gallate inhibits mos activation-mediated xenopus oocyte maturation induced by progesterone. 1060 45

Many natural products elicit diverse pharmacological effects. Using two classes of potential chemopreventive compounds, the phenolic compounds and the isothiocyanates, we review the potential utility of two signaling events, the mitogen-activated protein kinases (MAPKs) and the ICE/Ced-3 proteases (caspases) stimulated by these agents in mammalian cell lines. Studies with phenolic antioxidants (BHA, tBHQ), and natural products (flavonoids; EGCG, ECG, and isothiocyanates; PEITC, sulforaphane), provided important insights into the signaling pathways induced by these compounds. At low concentrations, these chemicals may activate the MAPK (ERK2, JNK1, p38) leading to gene expression of survival genes (c-Fos, c-Jun) and defensive genes (Phase II detoxifying enzymes; GST, QR) resulting in survival and protective mechanisms (homeostasis response). Increasing the concentrations of these compounds will additionally activate the caspase pathway, leading to apoptosis (potential cytotoxicity). Further increment to suprapharmacological concentrations will lead to nonspecific necrotic cell death. The wider and narrow concentration ranges between the activation of MAPK/gene induction and caspases/cell death exhibited by phenolic compounds and isothiocyanates, respectively, in mammalian cells, may reflect their respective therapeutic windows in vivo. Consequently, the studies of signaling pathways elicited by natural products will advance our understanding of their efficacy and safety, of which many may become important therapeutic drugs of the future.
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PMID:Signal transduction events elicited by natural products: role of MAPK and caspase pathways in homeostatic response and induction of apoptosis. 1072 49

Drug or xenobiotics metabolizing enzymes (DMEs or XMEs) play central roles in the biotransformation, metabolism and/or detoxification of xenobiotics or foreign compounds, that are introduced to the human body. In general, DMEs protect or defend the body against the potential harmful insults from the environment. Once in the body, many xenobiotics may induce signal transduction events either specifically or non-specifically leading to various cellular, physiological and pharmacological responses including homeostasis, proliferation, differentiation, apoptosis, or necrosis. For the body to minimize the insults caused by these xenobiotics, various tissues/organs are well equipped with diverse DMEs including various Phase I and Phase II enzymes, which are present in abundance either at the basal level and/or increased/induced after exposure. To better understand the pharmacogenomic/gene expression profile of DMEs and the underlying molecular mechanisms after exposure to xenobiotics or drugs, we will review our current knowledge on DNA microarray technology in gene expression profiling and the signal transduction events elicited by various xenobiotics mediated by either specific receptors or non-specific signal transduction pathways. Pharmacogenomics is the study of genes and the gene products (proteins) essential for pharmacological or toxicological responses to pharmaceutical agents. In order to assess the battery of genes that are induced or repressed by xenobiotics and pharmaceutical agents, cDNA microarray or oligonucleotide-based DNA chip technology can be a powerful tool to analyze, simultaneously, the gene expression profiles that are induced or repressed by xenobiotics. The regulation of gene expression of the various phase I DMEs such as the cytochrome P450 (CYP) as well as phase II DMEs generally depends on the interaction of the xenobiotics with the receptors. For instance, the expression of CYP1 genes can be induced via the aryl hydrocarbon receptor (AhR) which dimerizes with the AhR nuclear translocator (ARNT), in response to many polycyclic aromatic hydrocarbon (PAHs). Similarly, the steroid family of orphan receptors, the constitutive androstane receptor (CAR) and pregnane X receptors (PXR), heterodimerize with the retinoid X receptor (RXR), transcriptionally activate the promoters of CYP2B and CYP3A gene expression by xenobiotics such as phenobarbital-like compounds (CAR) and dexamethasone and rifampin-type of agents (PXR). The peroxisome proliferator activated receptor (PPAR) which is one of the first characterized members of the nuclear hormone receptor, also dimerizes with RXR and it has been shown to be activated by lipid lowering agent fibrate-type of compounds leading to transcriptional activation of the promoters on the CYP4A genes. The transcriptional activation of these promoters generally leads to the induction of their mRNA. The physiological and the pharmacological implications of common partner of RXR for CAR, PXR, and PPAR receptors largely remain unknown and are under intense investigations. For the phase II DMEs, phase II gene inducers such as phenolic compounds butylated hydroxyanisol (BHA), tert-butylhydroquinone (tBHQ), green tea polyphenol (GTP), (-)-epicatechin-3-gallate (EGCG) and the isothiocyanates (PEITC, sulforaphane) generally appear to be electrophiles. They can activate the mitogen-activated protein kinase (MAPK) pathway via electrophilic-mediated stress response, resulting in the activation of bZIP transcription factors Nrf2 which dimerizes with Mafs and binds to the antioxidant/electrophile response element (ARE/EpRE) enhancers which are found in many phase II DMEs as well as many cellular defensive enzymes such as thioredoxins, gammaGCS and HO-1, with the subsequent induction of gene expression of these genes. It appears that in general, exposure to phase I or phase II gene inducers or xenobiotics may trigger a cellular "stress" response leading to the increase in the gene expression of these DMEs, which ultimately enhance the elimination and clearance of the xenobiotics e xenobiotics and/or the "cellular stresses" including harmful reactive intermediates such as reactive oxygen species (ROS), so that the body will remove the "stress" expeditiously. Consequently, this homeostatic response of the body plays a central role in the protection of the organism against environmental insults such as xenobiotics. Advances in DNA microarray technologies and mammalian genome sequencing will soon allow quantitative assessment of expression profiles of all genes in the selected tissues. The ability to predict phenotypic outcomes from gene expression profiles is currently in its infancy, however, and will require additional bioinformatic tools. Such tools will facilitate information gathering from literature and gene databases as well as integration of expression data with animal physiology studies. The study of pharmacogenomic/gene expression profile and the understanding of the regulation and the signal transduction mechanisms elicited by pharmaceutical agents can be of potential importance during drug discovery and the drug development.
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PMID:Pharmacogenomics, regulation and signaling pathways of phase I and II drug metabolizing enzymes. 1236 94

It has been widely shown that many plant-derived compounds present significant anti-inflammatory effects. For this reason, they represent potential molecules for the development of new drugs, especially designed for the treatment and/or control of chronic inflammatory states such as rheumatism, asthma, inflammatory bowel diseases, atherosclerosis, etc. This review focuses on the naturally-occurring compounds with anti-inflammatory properties and attempts to correlate their actions with the modulation of cytokines and associated intracellular signalling pathways; it continues the review published in the November, 2003 issue of Planta Medica. Abbreviations. AP-1:activator protein-1 CCR1:chemokine receptor 1 CINC-1:cytokine-induced neutrophil chemoattractant 1 COX:cyclooxygenase EGCG:(-)-epigallocatechin gallate ELAM-1:endothelial-leukocyte adhesion molecule-1 ERK:extracellular signal-regulated kinase GRO:growth-related oncogene HUVEC:human umbilical vein endothelial cells ICAM-1:intercellular adhesion molecule-1 IFN:interferon IL:interleukin iNOS:inducible nitric oxide synthase IRA:the natural interleukin receptor activation JAK:janus kinase JNK:c-Jun NH2-terminal kinase LPS:lipopolysaccharide MAPK:mitogen-activated protein kinases MCP:monocyte chemotactic protein MHC:major histocompatibility complex MIP:macrophage inflammatory protein MMP:matrix metalloproteinases MPO:myeloperoxidase NF-kappaBnuclear factor kappa B NO:nitric oxide PAF:platelet aggregation factor PGEE:prostaglandin PK:protein kinase PMA/TPA:phorbol myristate acetate RANTES:regulated upon activation normal T-cell expressed and secreted TGF-beta:transforming growth factor-beta TNFalpha:tumour necrosis factor VCAM-1:vascular cell adhesion molecule-1
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PMID:Anti-inflammatory compounds of plant origin. Part II. modulation of pro-inflammatory cytokines, chemokines and adhesion molecules. 1499 84

The cancer-preventive effects of green tea and its main constituent (-)-epigallocatechin gallate [(-)-EGCG] are widely supported by results from epidemiological, cell culture, animal and clinical studies in the recent decade. In vitro cell culture studies show that tea polyphenols potently induce apoptotic cell death and cell cycle arrest in tumor cells but not in their normal cell counterparts. Green tea polyphenols affect several signal transduction pathways, including growth factor-mediated, the mitogen-activated protein kinase (MAPK)-dependent, and ubiquitin/proteasome degradation pathways. Epidemiological studies have suggested that the consumption of green tea lowers the risk of cancer. Various animal studies have revealed that treatment by green tea inhibits tumor incidence and multiplicity in different organ sites such as skin, lung, liver, stomach, mammary gland and colon. Phase I and II clinical trials were carried out recently to explore the anticancer effects of green tea in patients with cancer. At this time, more mechanistic research, animal studies, and clinical trials are necessary to further evaluate the role of green tea in cancer prevention.
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PMID:Green tea and tea polyphenols in cancer prevention. 1535 85

Signal transducers and activators of transcription (STATs) play a critical role in signal transduction pathways. STATs are a family of cytoplasmic proteins with roles as signal messengers and transcription factors that participate in normal cellular responses to cytokines and growth factors. Phosphorylation of STAT1 at Ser727 is essential for its activation and occurs in response to stress signals, inflammation or infection. We observed that UVB induced phosphorylation of STAT1 (Ser727) in mouse epidermal JB6 Cl41 cells. This stimulation was inhibited by PD98059 and UO126, wortmannin, LY294002, SB202190 and SP600125 and dominant negative mutants of ERK2 (DNM-ERK2), p38 (DNM-p38) and JNK1 (DNM-JNK1). The response was absent in Jnk1(-/-) or Jnk2(-/-) knockout cells, but was unaffected by a dominant negative mutant of the phosphatidylinositol-3 kinase (PI-3K) p85 subunit (DNM-Deltap85). STAT1 (Ser727) phosphorylation was also blocked in a Rsk2(-) cell line. In Pdk1(-/-) cells STAT1 was not activated by UVB stimulation compared with strong activation in Pdk1(+/+) cells. Our data indicate that phosphorylation of STAT1 (Ser727) occurs through PI-3K, ERKs, p38 kinase, JNKs, PDK1 and p90RSK2 in the cellular response to UVB. We also show an inhibitory effect of theaflavins and EGCG on UVB-induced STAT1 (Ser727), ERKs, JNKs, PDK1 and p90RSK2 phosphorylation.
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PMID:The signal transduction networks required for phosphorylation of STAT1 at Ser727 in mouse epidermal JB6 cells in the UVB response and inhibitory mechanisms of tea polyphenols. 1555 Apr 55

We reported recently that (-)epigallocatechin gallate and quercetin inhibited H2O2-induced apoptosis through modulation of the expression of apoptosis-related Bcl-2 and Bax in endothelial cells. This study attempted to identify possible regulatory sites and mechanisms of antiapoptotic flavonoids, focusing on ROS-mediated signaling in HUVEC. The effects of apigenin on the signaling pathway downstream were compared. Submillimolar H2O2 caused >30% cell killing with intracellular oxidant generation. H2O2-induced oxidant generation markedly decreased total intracellular glutathione (GSH) levels. Micromolar (-)epigallocatechin gallate and quercetin partially eliminated the dichlorodihydrofluorescein (DCF) and phospho-p53 staining, suggesting that these flavonoids inhibited the accumulation of intracellular oxidants and nuclear transactivation of p53 in H2O2-exposed cells. In contrast, cells treated with apigenin remained DCF and phospho-p53 staining positive in response to H2O2. (-)Epigallocatechin gallate significantly raised the total GSH level that had been depleted by H2O2. Caspase-3 activity was enhanced by H2O2, and this increase was inhibited by (-)epigallocatechin gallate and quercetin. Additionally, the upregulation of caspase-3 activation was reversed by these flavonoids at > or =10 micromol/L; these inhibitory effects were dose dependent. Western blot data revealed that H2O2 upregulated phosphorylation of c-Jun N-terminal kinase (JNK) and p38 mitogen-activated protein kinase (MAPK), which was rapidly reversed by quercetin within 30 min; H2O2 activation of c-Jun was downregulated. (-)Epigallocatechin gallate inhibited H2O2-induced phosphorylation of JNK and p38 MAPK after 60 min. These results reveal that quercetin blocks JNK- and p38 MAPK-related signaling triggered by the oxidant and may regulate expression of apoptotic downstream genes, preventing apoptosis and promoting cell survival. (-)Epigallocatechin gallate may function as an antiapoptotic agent through other antiapoptotic pathways.
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PMID:(-)Epigallocatechin gallate and quercetin enhance survival signaling in response to oxidant-induced human endothelial apoptosis. 1579 22

HIV protease inhibitors (PIs) are often associated with metabolic and cardiovascular complications although they are effective anti-HIV drugs. In this study, we determined whether HIV PI ritonavir could increase endothelial permeability, one of the important mechanisms of vascular lesion formation. Human dermal microvascular endothelial cells (HMECs) treated with ritonavir showed a significant increase of endothelial permeability in a dose- and time-dependent manner assayed with a transwell system. Ritonavir significantly reduced the mRNA levels of tight junction proteins zonula occluden-1, occludin, and claudin-1 by 40-60% as compared to controls (P<0.05) by real-time PCR analysis. Protein levels of these tight junction molecules were also substantially reduced in the ritonavir-treated cells. In addition, HMECs treated with ritonavir (7.5, 15, and 30microM) showed a substantial increase of superoxide anion production by 10%, 32%, and 65%, respectively, as compared to controls. Antioxidants (EGCG and SeMet) effectively reduced ritonavir-induced endothelial permeability. Furthermore, ritonavir activated ERK1/2 (phosphorylation), but not P38 and JNK. Specific ERK1/2 inhibitor, PD89059, significantly abolished ritonavir-induced endothelial permeability by 92%. Thus, HIV PI ritonavir increases endothelial permeability, decreases levels of tight junction proteins, and increases superoxide anion production. ERK1/2 activation is involved in the signal transduction pathway of ritonavir-induced endothelial permeability.
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PMID:HIV protease inhibitor ritonavir increases endothelial monolayer permeability. 1610 60

Piceatannol is an anti-inflammatory and anti-proliferative plant-derived stilbene. Heme oxygenase-1 (HO-1) is a cytoprotective enzyme to activate by various phytochemicals. In this study, we examined the ability of piceatannol to upregulate HO-1 expression in endothelial cells. We found piceatannol at micromolar (10-50 microM) concentrations dramatically increased HO-1 protein levels in a time-dependent manner. Piceatannol was similarly potent in the induction of HO-1 as hemin, arsenate, and 15d-PGJ2, and was more potent than some other phytochemicals including curcumin, EGCG, baicalein, and quercetin. In contrast, the similar chemical structure compounds, trans-stilbene, stilbene oxide, and resveratrol had no HO-1-inducing effects, suggesting a critical role for the hydroxyl groups in HO-1 induction. No cytotoxicity and superoxide production was observed after 10-50 microM piceatannol treatments. Piceatannol-mediated HO-1 induction was abrogated in the presence of N-acetylcysteine and glutathione, but not by other antioxidants. Induction of HO-1 by piceatannol was further enhanced by using buthionine sulfoximine. In addition, we determined that tyrosine kinase was involved in the induction of HO-1 by using tyrosine kinase inhibitors, herbimycin A, erbstatin, and genistein; in contrast, no significant changes in the pretreatment of PI3 kinase or MAP kinase inhibitors was determined. HO-1 induction was blocked by the protein kinase C inhibitors calphostin C, rottlerin, and long PMA pretreatment, whereas conventional PKC inhibitors, Go6976, and Ca2+ chelator BAPTA/AM, had no effect. Elevated HO-1 protein levels were associated with the inhibition of tumor necrosis factor-alpha (TNFalpha)-induced intercellular adhesion molecule-1 (ICAM-1) expression. Treating ECs with zinc protoporphyrin, an HO-1 inhibito blocked the anti-inflammatory effect of piceatannol. In summary, this study identified piceatannol as a novel phytochemical inducer of HO-1 expression and identified the mechanisms involved in this process.
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PMID:Piceatannol upregulates endothelial heme oxygenase-1 expression via novel protein kinase C and tyrosine kinase pathways. 1624 36

Green tea has been reported as potential dietary protection against numerous cancers and has been shown to have activity in bladder tumor inhibition in different animal models. The goal of this study was to examine the effects of (-)-epigallocatechin gallate (EGCG-the major phytochemical in green tea) on growth inhibition and behavior of human bladder carcinoma cells and to identify the altered signaling pathway(s) underlying the response to EGCG exposure. EGCG inhibited the in vitro growth of invasive bladder carcinoma cells with an IC(50) range of 70-87 microM. At a concentration of 20 microM, EGCG decreased the migratory potential of bladder carcinoma cells with concomitant activation of p42/44 MAPK and STAT3 and inactivation of Akt. Using biochemical inhibitors of MAPK/ERK, and siRNA to knockdown STAT3 and Akt, inhibition of migration was recorded associated with Akt but not MAPK/ERK or STAT3 signaling in bladder cells. In addition, EGCG downregulated N-cadherin in a dose-dependent manner where reduction in N-cadherin expression paralleled declining migratory potential. Continuous feeding of EGCG to mice prior to and during the establishment of bladder carcinoma xenografts in vivo revealed >50% reduction in mean final tumor volume (P </= 0.05) with no detectable toxicity. EGCG inhibited bladder carcinoma cell growth and suppressed the in vitro migration capacity of cells via downregulation of N-cadherin and inactivation of Akt signaling. Continuous administration of EGCG to mice revealed significant inhibition of tumor growth in vivo indicating a possible preventative role for green tea in bladder cancer.
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PMID:The green tea compound, (-)-epigallocatechin-3-gallate downregulates N-cadherin and suppresses migration of bladder carcinoma cells. 1734 27

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