Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.12.2 (MEK)
 18,161 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Histone H3 is the core protein of the nucleosome. Phosphorylation of H3 involves immediate early gene expression, chromatin remodeling, and chromosome condensation during mitosis. Very recently, Rsk2 or MSK1 kinase-mediated phosphorylation of H3 at serine 10 was reported. In the present study, we show that both ERKs and p38 kinase may mediate ultraviolet B-induced phosphorylation of H3 at serine 10. PD 98059, a MEK1 inhibitor, and SB 202190, a p38 kinase inhibitor, efficiently inhibited ultraviolet B-induced phosphorylation of H3. Phosphorylation of H3 was also inhibited in cells expressing dominant negative mutant (DNM) ERK2 and DNM p38 kinase. In contrast, no inhibition of H3 phosphorylation in Jnk1 or Jnk2 knockout cells (Jnk1(-/-) or Jnk2(-/-)) and cells expressing DNM JNK1 was observed. More importantly, incubation of active ERK2 or p38 kinase with H3 protein resulted in phosphorylation of H3 at serine 10 in vitro. These results suggest that ERK and p38 kinase are at least two important mediators of phosphorylation of H3 at serine 10.
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PMID:ERKs and p38 kinases mediate ultraviolet B-induced phosphorylation of histone H3 at serine 10. 1080 18

Lysophosphatidylcholine, a component of oxidized low density lipoprotein, is critical for pathological conditions including atherosclerosis. However, the signaling mechanism of lysophosphatidylcholine remains poorly understood. Here we reported that lysophosphatidylcholine induces phosphorylation of p38 and the transcription factors, CREB and ATF-1 with concomitant up-regulation of cyclooxygenase-2 expression in cultured vascular endothelial cells. Lysophosphatidylcholine induced p38 phosphorylation in a time- and concentration-dependent manner partly via pathway depending on protein tyrosine kinase. Both lysophosphatidylcholine-stimulated phosphorylation of CREB and ATF-1 and lysophosphatidylcholine-increased expression of cyclooxygenase-2 mRNA and protein were effectively inhibited by a combination of SB203580 and PD98059, specific inhibitors of p38 and MEK1, respectively, as well as Ro31-8220 and H89, potent inhibitors of MSK1. These results suggest that both p38 and ERK may function as upstream signaling pathways capable of activating CREB and ATF-1 with subsequent induction of cyclooxygenase-2 expression by lysophosphatidylcholine.
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PMID:Signaling mechanism underlying COX-2 induction by lysophosphatidylcholine. 1124 76

In resting cells, eIF4E-binding protein 1 (4E-BP1) binds to the eukaryotic initiation factor-4E (eIF-4E), preventing formation of a functional eIF-4F complex essential for cap-dependent initiation of translation. Phosphorylation of 4E-BP1 dissociates it from eIF-4E, relieving the translation block. Studies suggested that insulin- or growth factor-induced 4E-BP1 phosphorylation is mediated by phosphatidylinositol 3-kinase (PI3-kinase) and its downstream protein kinase, Akt. In the present study we demonstrated that UVB induced 4E-BP1 phosphorylation at multiple sites, Thr-36, Thr-45, Ser-64, and Thr-69, leading to dissociation of 4E-BP1 from eIF-4E. UVB-induced phosphorylation of 4E-BP1 was blocked by p38 kinase inhibitors, PD169316 and SB202190, and MSK1 inhibitor, H89, but not by mitogen-activated protein kinase kinase inhibitors, PD98059 or U0126. The PI3-kinase inhibitor, wortmannin, did not block UVB-induced 4E-BP1 phosphorylation, but blocked both UVB- and insulin-induced activation of PI3-kinase and phosphorylation of Akt. 4E-BP1 phosphorylation was blocked in JB6 Cl 41 cells expressing a dominant negative p38 kinase or dominant negative MSK1, but not in cells expressing dominant negative ERK2, JNK1, or PI3-kinase p85 subunit. Our results suggest that UVB induces phosphorylation of 4E-BP1, leading to the functional dissociation of 4E-BP1 from eIF-4E. The p38/MSK1 pathway, but not PI3-kinase or Akt, is required for mediating the UVB-induced 4E-BP1 phosphorylation.
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PMID:Phosphorylation of 4E-BP1 is mediated by the p38/MSK1 pathway in response to UVB irradiation. 1177 13

The Bcl-2 family member Bad is a pro-apoptotic protein, and phosphorylation of Bad by cytokines and growth factors promotes cell survival in many cell types. Induction of apoptosis by UV radiation is well documented. However, little is known about UV activation of cell survival pathways. Here, we demonstrate that UVB induces Bad phosphorylation at serine 112 in JNK1, RSK2, and MSK1-dependent pathways. Inhibition of mitogen-activated protein (MAP) kinases including ERKs, JNKs, and p38 kinase by the use of their respective dominant negative mutant or a specific inhibitor for MEK1 or p38 kinase, PD98059 or SB202190, resulted in abrogation of UVB-induced phosphorylation of Bad at serine 112. Incubation of active MAP kinase members with Bad protein showed serine 112 phosphorylation of Bad by JNK1 only. However, activated RSK2 and MSK1, downstream kinases of ERKs and p38 kinase, respectively, also phosphorylated Bad at serine 112 in vitro. Cells from a Coffin-Lowry syndrome patient (deficient in RSK2) or expressing an N-terminal or C-terminal kinase-dead mutant of MSK1 were defective for UVB-induced serine 112 phosphorylation of Bad. Furthermore, MAP kinase pathway-dependent serine 112 phosphorylation was shown to be required for dissociation of Bad from Bcl-X(L). These data illustrated that UVB-induced phosphorylation of Bad at serine 112 was mediated through MAP kinase signaling pathways in which JNK1, RSK2, and MSK1 served as direct mediators.
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PMID:Activation of JNK1, RSK2, and MSK1 is involved in serine 112 phosphorylation of Bad by ultraviolet B radiation. 1198 83

VIP exerts a spectrum of effects as a potent anti-inflammatory factor. In addition, VIP increases expression of MUC2, a major intestinal secretory mucin. We therefore investigated the effects of VIP on the promoter activity of the 5'-flanking region of the MUC2 gene. VIP activated MUC2 transcription in human colonic epithelial cells via cAMP signaling to ERK and p38. cAMP/Epac/Rap1/B-Raf signaling was not involved in MUC2 reporter activation. Furthermore, activation of MUC2 transcription was independent of many of the reported downstream effectors of G protein-coupled receptors, such as PKC, Ras, Raf, Src, calcium, and phosphoinositide 3-kinase. VIP induced cAMP response element-binding protein (CREB)/ATF1 phosphorylation, and this was prevented by treatment with inhibitors of either MEK or p38 and by PKA and MSK1 inhibitor H89. CREB/ATF1 and c-Jun were shown to bind to an oligonucleotide encompassing a distal, conserved CREB/AP1 site in the 5'-flanking region of the MUC2 gene, and this cis element was shown to mediate promoter reporter activation by VIP. This study has identified a new, functional cis element within the MUC2 promoter and also a new pathway regulating MUC2 expression, thus providing further insight into the molecular mechanism of VIP action in the colon. These findings are relevant to the normal biology of the colonic mucosa as well as to the development of VIP as a therapeutic agent for treatment of inflammatory bowel disease.
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PMID:Vasoactive intestinal peptide upregulates MUC2 intestinal mucin via CREB/ATF1. 1622 28

N-acetylcysteine (NAC) is neuroprotective in animal models of acute brain injury such as caused by bacterial meningitis. However, the mechanism(s) by which NAC exerts neuroprotection is unclear. Gene expression of endothelin-1 (ET-1), which contributes to cerebral blood flow decline in acute brain injury, is partially regulated by reactive oxygen species, and thus a potential target of NAC. We therefore examined the effect of NAC on tumor necrosis factor (TNF)-alpha-induced ET-1 production in cerebrovascular endothelial cells. NAC dose dependently inhibited TNF-alpha-induced preproET-1 mRNA upregulation and ET-1 protein secretion, while upregulation of inducible nitric oxide synthase (iNOS) was unaffected. Intriguingly, NAC had no effect on the initial activation (i.e., IkappaB degradation, nuclear p65 translocation, and Ser536 phosphorylation) of NF-kappaB by TNF-alpha. However, transient inhibition of NF-kappaB DNA binding suggested that NAC may inhibit ET-1 upregulation by inhibiting (a) parallel pathway(s) necessary for full transcriptional activation of NF-kappaB-mediated ET-1 gene expression. Similar to NAC, the MEK1/2 inhibitor U0126, the p38 inhibitor SB203580, and the protein kinase inhibitor H-89 selectively inhibited ET-1 upregulation without affecting nuclear p65 translocation, suggesting that NAC inhibits ET-1 upregulation via inhibition of mitogen- and stress-activated protein kinase (MSK). Supporting this notion, cotreatment with NAC inhibited the TNF-alpha-induced rise in MSK1 and MSK2 kinase activity, while siRNA knock-down experiments showed that MSK2 is the predominant isoform involved in TNF-alpha-induced ET-1 upregulation.
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PMID:Evidence that N-acetylcysteine inhibits TNF-alpha-induced cerebrovascular endothelin-1 upregulation via inhibition of mitogen- and stress-activated protein kinase. 1702 64

Sulfur mustard (SM) is a strong vesicant that has been used as a chemical warfare agent. To understand the molecular mechanisms that underlie the inflammatory skin reaction in response to SM, we analyzed the activation pattern of the NF-kappaB and mitogen-activated protein kinase (MAPK) pathways. Keratinocytes responded with an induction of the canonical NF-kappaB pathway, including activation of IkappaB kinase 2, followed by phosphorylation and degradation of IkappaBalpha and of the transactivating subunit RelA at Ser536. The biphasic NF-kappaB response was strictly dependent on the transactivating subunit RelA, as demonstrated by keratinocytes lacking RelA. Parallel to NF-kappaB activation, we observed an induction of the Raf-1/MEK1/2/ERK1/2/MSK1 and MKK3/6/p38/MSK1 pathways. Although mitogen and stress-activated kinase 1 has been described as a RelA kinase with Ser276 as its target, this site remained unphosphorylated in response to SM. A further MAPK pathway induced by SM was the MKK4/7/JNK1/2 pathway, which resulted in phosphorylation of the transcription factor activating transcription factor-2, but not c-Jun. Our results indicate that SM induces a complex cellular response in keratinocytes, with the activation of three MAPK pathways and the NF-kappaB pathway.
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PMID:Role of NF-kappaB/RelA and MAPK pathways in keratinocytes in response to sulfur mustard. 1820 59

In this study, we demonstrate that treatment of human lung adenocarcinoma H460 cells with farnesol induces the expression of a number of immune response and inflammatory genes, including IL-6, CXCL3, IL-1alpha, and COX-2. This response was dependent on the activation of the NF-kappaB signaling pathway. Farnesol treatment reduces the level of IkappaBalpha and induces translocation of p65/RelA to the nucleus, its phosphorylation at Ser(276), and transactivation of NF-kappaB-dependent transcription. Moreover, overexpression of IkappaBalpha or treatment with the NF-kappaB inhibitor caffeic acid phenethyl ester greatly diminishes the induction of inflammatory gene expression by farnesol. We provide evidence indicating that the farnesol-induced phosphorylation of p65/RelA at Ser(276) is important for optimal transcriptional activity of NF-kappaB. The MEK1/2 inhibitor U0126 and knockdown of MEK1/2 expression with small interfering RNAs effectively blocked the phosphorylation of p65/RelA(Ser(276)) but not that of Ser(536), suggesting that this phosphorylation is dependent on the activation of the MEK1/2-ERK1/2 pathway. We further show that inhibition of MSK1, a kinase acting downstream of MEK1/2-ERK1/2, by H89 or knockdown of MSK1 expression also inhibited phosphorylation of p65/RelA(Ser(276)), suggesting that this phosphorylation is dependent on MSK1. Knockdown of MEK1/2 or MSK1 expression inhibits farnesol-induced expression of CXCL3, IL-1alpha, and COX-2 mRNA. Our results indicate that the induction of inflammatory genes by farnesol is mediated by the activation of the NF-kappaB pathway and involves MEK1/2-ERK1/2-MSK1-dependent phosphorylation of p65/RelA(Ser(276)). The activation of the NF-kappaB pathway by farnesol might be part of a prosurvival response during farnesol-induced ER stress.
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PMID:NF-kappaB-dependent transcriptional activation in lung carcinoma cells by farnesol involves p65/RelA(Ser276) phosphorylation via the MEK-MSK1 signaling pathway. 1842 38

IL-17F is involved in asthma, but its biological function and signaling pathway have not been fully elucidated. IL-11 is clearly expressed in the airway of patients with allergic airway diseases such as asthma and plays an important role in airway remodeling and inflammation. Therefore, we investigated the expression of IL-11 by IL-17F in bronchial epithelial cells. Bronchial epithelial cells were cultured in the presence or absence of IL-17F and/or Th2 cytokines (IL-4 and IL-13) or various kinase inhibitors to analyze the expression of IL-11. Next, activation of mitogen- and stress-activated protein kinase (MSK) 1 by IL-17F was investigated. Moreover, the effect of short interfering RNAs (siRNAs) targeting MSK1 and cAMP response element binding protein (CREB) on IL-17F-induced IL-11 expression was investigated. IL-17F induced IL-11 expression, whereas the costimulation with IL-4 and IL-13 augmented this effect even further. MEK inhibitors PD-98059, U0126, and Raf1 kinase inhibitor I, significantly inhibited IL-11 production, whereas overexpression of a Raf1 dominant-negative mutant inhibited its expression. IL-17F clearly phosphorylated MSK1, whereas PD-98059 inhibited the phosphorylation of IL-17F-induced MSK1. Both MSK1 inhibitors Ro-31-8220 and H89 significantly blocked IL-11 expression. Moreover, transfection of the cells with siRNAs targeting MSK1 inhibited activation of CREB, and the siRNAs targeting MSK1 and CREB blocked expression of IL-11. These data suggest that IL-17F may be involved in airway inflammation and remodeling via the induction of IL-11, and RafI-MEK1/2-ERK1/2-MSK1-CREB is identified as a novel signaling pathway participating in this process. Therefore, the IL-17F/IL-11 axis may be a valuable therapeutic target for asthma.
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PMID:IL-17F-induced IL-11 release in bronchial epithelial cells via MSK1-CREB pathway. 1925 39

The isoprenoid alcohol farnesol is an effective inducer of cell cycle arrest and apoptosis in a variety of carcinoma cell types. In addition, farnesol has been reported to inhibit tumorigenesis in several animal models suggesting that it functions as a chemopreventative and anti-tumor agent in vivo. A number of different biochemical and cellular processes have been implicated in the growth-inhibitory and apoptosis-inducing effects of farnesol. These include regulation of 3-hydroxy-3-methylglutaryl-CoA (HMG-CoA) reductase and CTP:phosphocholine cytidylyltransferase alpha (CCTalpha), rate-limiting enzymes in the mevalonate pathway and phosphatidylcholine biosynthesis, respectively, and the generation of reactive oxygen species. In some cell types the action of farnesol is mediated through nuclear receptors, including activation of farnesoid X receptor (FXR) and peroxisome proliferator-activated receptors (PPARs). Recent studies have revealed that induction of endoplasmic reticulum (ER) stress and the subsequent activation of the unfolded protein response (UPR) play a critical role in the induction of apoptosis by farnesol in lung carcinoma cells. This induction was found to be dependent on the activation of the MEK1/2-ERK1/2 pathway. In addition, farnesol induces activation of the NF-kappaB signaling pathway and a number of NF-kappaB target genes. Optimal activation of NF-kappaB was reported to depend on the phosphorylation of p65/RelA by the MEK1/2-MSK1 signaling pathway. In a number of cells farnesol-induced apoptosis was found to be linked to activation of the apoptosome. This review provides an overview of the biochemical and cellular processes regulated by farnesol in relationship to its growth-inhibitory, apoptosis-promoting, and anti-tumor effects.
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PMID:Molecular mechanisms involved in farnesol-induced apoptosis. 1952 Apr 95


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