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ERK Pathway (erk + pathway)
Selected AbstractsMechanism of insulin-like growth factor I-mediated proliferation of adult neural progenitor cells: role of AktEUROPEAN JOURNAL OF NEUROSCIENCE, Issue 4 2007Haviryaji S. G. Kalluri Abstract Insulin-like growth factor I (IGF-I) is involved in the proliferation and differentiation of adult neural progenitor cells; however, the underlying mechanism is not clear. We analysed the involvement of the phosphatidylinositol 3-kinase/Akt and MEK/extracellular signal-regulated kinase (ERK) pathways in the IGF-I-mediated proliferation of rat neural progenitor cells. Stimulation of neural progenitor cells with IGF-I enhanced the phosphorylation of Akt but not ERK. Cell proliferation assay demonstrated that 2-(4-morpholinyl)-8-phenyl-4H-1-benzopyran-4-one (phosphoinositide 3-kinase inhibitor) but not 1,4-diamino-2,3-dicyano-1,4-bis(2-aminophenylthio)-butadiene (U0126) (ERK inhibitor) inhibited the IGF-I-induced survival of cells, whereas fibroblast growth factor 2 (FGF-2) enhanced the IGF-I-mediated survival of cells. Consistent with the cell proliferation assay, 5,bromo-2-deoxy-uridine incorporation studies established a negative role for IGF-I in proliferation. However, FGF-2 (ERK activator) in the presence of IGF-I (Akt activator) increased the proliferation of cells. Accordingly, stimulation of the ERK pathway by FGF-2 induced the expression of cyclin D1, which is essential for the entry of cells into cell cycle, and IGF-I in the presence of FGF-2 up-regulated the expression of cyclin D1. IGF-I in the absence or presence of FGF-2 increased the phosphorylation of glycogen synthase kinase, thus supporting its role in the survival of neural progenitor cells. To further confirm the role of ERK activation in the proliferation, we cultured cells in FGF-2 + IGF-I-containing medium in the presence and absence of U0126 (ERK inhibitor), and showed the inhibition of nestin expression in U0126-treated cells. The decrease in the cyclin D1 content in conjunction with the inhibition of nestin expression by ERK inhibitor confirms the role of ERK in the proliferation of cells. [source] Vitamin C attenuates ERK signalling to inhibit the regulation of collagen production by LL-37 in human dermal fibroblastsEXPERIMENTAL DERMATOLOGY, Issue 8 2010Hyun Jeong Park Please cite this paper as: Vitamin C attenuates ERK signalling to inhibit the regulation of collagen production by LL-37 in human dermal fibroblasts. Experimental Dermatology 2010; 19: e258,e264. Abstract:, Vitamin C is used as an anti-ageing agent because of its collagen enhancing effects. The precise cellular signalling mechanism of vitamin C is not well known. Here, we investigate the profibrotic mechanism of vitamin C against LL-37. Antimicrobial peptide LL-37 decreases collagen expression at mRNA and protein levels in human dermal fibroblasts (HDFs). The ability of LL-37 to inhibit collagen expression is dependent on phosphorylation of extracellular signal-regulated kinase (ERK). HDFs and human keloid fibroblasts were treated with vitamin C followed by 2 h of LL-37 treatment. Collagen mRNA expression and total soluble collagen production inhibited by LL-37 was enhanced by treatment with 0.5 mm vitamin C. Vitamin C also decreased intracellular reactive oxygen intermediates (ROI) levels that were increased by LL-37. Furthermore, the phosphorylation of ERK was analysed by Western blot following treatment with vitamin C and LL-37. Vitamin C turned off phosphorylation of ERK that was induced by LL-37. Ets-1 transcriptional factor, which is involved in the regulation of collagen expression by LL-37, was also inhibited by vitamin C. This study shows that vitamin C enhances collagen production by inhibiting the ERK pathway induced by LL-37. [source] Terrein inhibits keratinocyte proliferation via ERK inactivation and G2/Mcell cycle arrestEXPERIMENTAL DERMATOLOGY, Issue 4 2008Dong-Seok Kim Abstract:, Terrein, a fungal metabolite, has been recently shown to have a strong antiproliferative effect on skin equivalents. In the present study, we further investigated the effects of terrein on the possible signalling pathways involved in the growth inhibition of human epidermal keratinocytes by examining the regulations of extracellular signal-regulated protein kinase (ERK) and of the Akt pathway by terrein. It was observed that ERK was inactivated by terrein and that keratinocyte proliferation was inhibited, whereas Akt was unaffected. The inhibition of the ERK pathway by U0126 (a specific ERK inhibitor) also had a dose-dependent antiproliferative effect on human keratinocytes. These results indicate that ERK inhibition is involved in keratinocyte growth inhibition by terrein. Moreover, flow cytometric analysis showed that terrein inhibits DNA synthesis, as evidenced by a reduction in the S phase and an increase in the G2/M phase of the cell cycle. Thus, we next examined changes in the expressions of G2/M cell cycle-related proteins. Terrein was found to downregulate cyclin B1 and Cdc2 without Cdc2 phosphorylation, but upregulated p27KIP1 (p27), a known inhibitor of cyclin-dependent kinase. These results suggest that terrein reduces human keratinocyte proliferation by inhibiting ERK and by decreasing the expressions of cyclin B1 and Cdc2 complex. [source] ,-MSH and cAMP signalling in normal human melanocytesEXPERIMENTAL DERMATOLOGY, Issue 9 2004R. Buscŕ Melanocytes are neural crest-derived skin cells specialized in the synthesis of melanin pigments responsible, in human, for skin and hair colour. The pro-opiomelanocortin peptide, ,-MSH is a strong melanogenic agent secreted by keratinocytes following UV radiation. ,-MSH through the binding to the MC1R and activation of the cyclic AMP pathway plays a pivotal role in melanocyte differentiation and in the regulation of skin pigmentation. During the last few years, we have elucidated the molecular events linking the cAMP pathway to melanogenesis upregulation. This cascade involves the activation of protein kinase A and CREB transcription factor, leading to the upregulation of the expression of microphthalmia-associated transcription factor (MITF). MITF binds and activates the melanogenic gene promoters thereby increasing their expression, which results in an increased melanin synthesis. Beyond this simplified scheme, other intracellular signalling pathways are regulated by cAMP and participate to the regulation of melanocyte differentiation. Indeed, cAMP inhibits the phosphatidyl inositol 3-kinase pathway, leading to the inhibition of AKT and to the activation of GSK3,. This kinase phosphorylates MITF and allows its binding to the target sequence. Such pathways are involved in the upregulation of melanogenesis. ,-MSH and cAMP signalling also regulate melanocyte dendricity, and melanosome transport through the inhibition of the Rho GTPase cascade that function downstream the PI3 kinase. It should be also mentioned that cAMP activates the ERK pathway through a melanocyte-specific pathway involving Ras and B-Raf. The activation of ERK and RSK1 leads to the phosphorylation of MITF and target MITF to the proteasome degradation pathway. Interestingly, several proteins involved in melanocyte differentiation by ,-MSH (MC1R, PI3K, B-Raf and MITF) have also been implicated in the development of melanoma, suggesting that the cAMP pathway could influence melanocyte transformation. [source] Regulation of calpain B from Drosophila melanogaster by phosphorylationFEBS JOURNAL, Issue 17 2009László Kovács Calpain B is one of the two catalytically competent calpain (calcium-activated papain) isoenzymes in Drosophila melanogaster. Because structural predictions hinted at the presence of several potential phosphorylation sites in this enzyme, we investigated the in vitro phosphorylation of the recombinant protein by protein kinase A as well as by the extracellular signal-regulated protein kinases (ERK) 1 and 2. By MS, we identified Ser845 in the Ca2+ binding region of an EF-hand motif, and Ser240 close to the autocatalytic activation site of calpain B, as being the residues phosphorylated by protein kinase A. In the transducer region of the protease, Thr747 was shown to be the target of the ERK phosphorylation. Based on the results of three different assays, we concluded that the treatment of calpain B with protein kinase A and ERK1 and ERK2 kinases increases the rate of the autoproteolytic activation of the enzyme, together with the rate of the digestion of external peptide or protein substrates. Phosphorylation also elevates the Ca2+ sensitivity of the protease. The kinetic analysis of phosphorylation mimicking Thr747Glu and Ser845Glu calpain B mutants confirmed the above conclusions. Out of the three phosphorylation events tested in vitro, we verified the in vivo phosphorylation of Thr747 in epidermal growth factor-stimulated Drosophila S2 cells. The data obtained suggest that the activation of the ERK pathway by extracellular signals results in the phosphorylation and activation of calpain B in fruit flies. Structured digital abstract ,,MINT-7214239: ERK1 (uniprotkb:P40417) phosphorylates (MI:0217) CalpainB (uniprotkb:Q9VT65) by protein kinase assay (MI:0424) ,,MINT-7214216, MINT-7214228: PKA (uniprotkb:P12370) phosphorylates (MI:0217) CalpainB (uniprotkb:Q9VT65) by protein kinase assay (MI:0424) ,,MINT-7214325: CalpainB (uniprotkb:Q9VT65) cleaves (MI:0194) MAP2C (uniprotkb:P11137) by protease assay (MI:0435) ,,MINT-7214275: ERK2 (uniprotkb:P40417-2) phosphorylates (MI:0217) CalpainB (uniprotkb:Q9VT65) by protein kinase assay (MI:0424) ,,MINT-7214319: CalpainB (uniprotkb:Q9VT65) and CalpainB (uniprotkb:Q9VT65) cleave (MI:0194) by protease assay (MI:0435) [source] Human airway trypsin-like protease induces amphiregulin release through a mechanism involving protease-activated receptor-2-mediated ERK activation and TNF ,-converting enzyme activity in airway epithelial cellsFEBS JOURNAL, Issue 24 2005Manabu Chokki Human airway trypsin-like protease (HAT), a serine protease found in the sputum of patients with chronic airway diseases, is an agonist of protease-activated receptor-2 (PAR-2). Previous results have shown that HAT enhances the release of amphiregulin (AR); further, it causes MUC5AC gene expression through the AR-epidermal growth factor receptor pathway in the airway epithelial cell line NCI-H292. In this study, the mechanisms by which HAT-induced AR release can occur were investigated. HAT-induced AR gene expression was mediated by extracellular signal-regulated kinase (ERK) pathway, as pretreatment of cells with ERK pathway inhibitor eliminated the effect of HAT on AR mRNA. Both HAT and PAR-2 agonist peptide (PAR-2 AP) induced ERK phosphorylation; further, desensitization of PAR-2 with a brief exposure of cells to PAR-2 AP resulted in inhibition of HAT-induced ERK phosphorylation, suggesting that HAT activates ERK through PAR-2. Moreover, PAR-2 AP induced AR gene expression subsequent to protein production in the cellular fraction through the ERK pathway indicating that PAR-2-mediated activation of ERK is essential for HAT-induced AR production. However, in contrast to HAT, PAR-2 AP could not cause AR release into extracellular space; it appears that activation of PAR-2 is not sufficient for HAT-induced AR release. Finally, HAT-induced AR release was eliminated by blockade of tumour necrosis factor ,-converting enzyme (TACE) by the TAPI-1 and RNA interference, suggesting that TACE activity is necessary for HAT-induced AR release. These observations show that HAT induces AR production through the PAR-2 mediated ERK pathway, and then causes AR release by a TACE-dependent mechanism. [source] 7-Ketocholesterol-induced apoptosisFEBS JOURNAL, Issue 12 2005Involvement of several pro-apoptotic but also anti-apoptotic calcium-dependent transduction pathways Oxysterols, and particularly 7-ketocholesterol, appear to be strongly involved in the physiopathology of atherosclerosis. These molecules are suspected to be cytotoxic to the cells of the vascular wall and monocytes/macrophages, particularly by inducing apoptosis. Previous studies have demonstrated that 7-ketocholesterol-induced apoptosis is triggered by a sustained increase of cytosolic-free Ca2+, which elicits the mitochondrial pathway of apoptosis by activation of the calcium-dependent phosphatase calcineurin, leading to dephosphorylation of the ,BH3 only' protein BAD. However, thorough study of the results suggests that other pathways are implicated in 7-ketocholesterol-induced cytotoxicity. In this study, we demonstrate the involvement of two other calcium-dependent pathways during 7-ketocholesterol-induced apoptosis. The activation of the MEK,ERK pathway by the calcium-dependent tyrosine kinase PYK 2, a survival pathway which delays apoptosis as shown by the use of the MEK inhibitor U0126, and a pathway involving another pro-apoptotic BH3 only protein, Bim. Indeed, 7-ketocholesterol treatment of human monocytic THP-1 cells induces the release of Bim-LC8 from the microtubule-associated dynein motor complex, and its association with Bcl-2. Therefore, it appears that 7-ketocholesterol-induced apoptosis is a complex phenomenon resulting from calcium-dependent activation of several pro-apoptotic pathways and also one survival pathway. [source] Protein phosphorylation pathways involved during lipopolysaccharide-induced expression of CD14 in mouse bone marrow granulocytesFEMS IMMUNOLOGY & MEDICAL MICROBIOLOGY, Issue 3 2000Thierry Pedron Abstract Lipopolysaccharide (LPS) of Gram-negative bacteria interacts with a CD14-independent receptor of mouse bone marrow granulocytes (BMC), and triggers in these cells the expression of CD14, an inducible type of LPS receptor (iLpsR). This particular response of BMC to LPS required the activation of protein tyrosine kinase and p38 MAP kinase. The inhibition of the LPS effect by the MEK inhibitor PD-98059 suggested that the ERK pathway was also involved. Unexpectedly, protein kinase C, myosin light chain kinase, cAMP-, cGMP-, and Ca2+/calmodulin-dependent kinases, as well as ecto-protein kinases, were not required for iLpsR expression. However, other yet unidentified serine/threonine protein kinase(s) were implied since the BMC response to LPS was markedly reduced after exposure to three inhibitors of such kinases (K-252a, H-7, and KT-5823). The atypical kinase requirements observed in this study may be due either to a novel signaling LPS receptor complex present in BMC, or to the particular events involved in CD14 biosynthesis. [source] Down-regulation of the PI3-kinase/Akt pathway by ERK MAP kinase in growth factor signalingGENES TO CELLS, Issue 9 2008Hideko Hayashi The ERK MAP kinase and PI3-kinase/Akt pathways are major intracellular signaling modules, which are known to regulate diverse cellular processes including cell proliferation, survival and malignant transformation. However, it has not been fully understood how these two pathways interact with each other. Here, we demonstrate that inhibition of the ERK pathway by the MEK inhibitor U0126 or PD98059 significantly potentiates EGF- and FGF-induced Akt phosphorylation at both Thr308 and Ser473. We also show that hyperactivation of the ERK pathway greatly attenuates EGF- and FGF-induced Akt phosphorylation. Furthermore, the enhanced Akt phosphorylation induced by U0126 is inhibited by the PI3-kinase inhibitor LY294002, and is accompanied by the up-regulation of Ras activity. These results suggest that the ERK pathway inhibition enhances Akt phosphorylation through the Ras/PI3-kinase pathway. Thus, our results demonstrate that the ERK pathway negatively modulates the PI3-kinase/Akt pathway in response to growth factor stimulation. [source] Sustained activation of M-Ras induced by nerve growth factor is essential for neuronal differentiation of PC12 cellsGENES TO CELLS, Issue 9 2006Peng Sun Neuronal differentiation in PC12 cells induced by nerve growth factor (NGF) requires sustained activation of ERK/MAP kinase pathway (Raf,MEK,ERK cascade). Although classical Ras (H-Ras, K-Ras, and N-Ras) activated by NGF signaling induces activation of ERK pathway, the activation is transient and not sufficient for PC12 cell differentiation. Instead, it has been widely accepted that NGF signaling-mediated Rap1 activation causes sustained activation of ERK pathway. There has been no direct evidence, however, that Rap1 participates in neuronal differentiation. Here we show that NGF signaling induces sustained activation of M-Ras and subsequent sustained activation of ERK pathway and the transcription factor CREB leading to PC12 cell differentiation. Exogenously expressed constitutively active mutant of M-Ras caused neurite outgrowth in PC12 cells and activating phosphorylation of ERK, whereas activated Rap1 did not. Knockdown of endogenous M-Ras by small interfering RNAs as well as the expression of a dominant,negative mutant of M-Ras interfered with NGF-induced neuritogenesis. Since MEK inhibitors prevented M-Ras-induced neurite outgrowth, ERK pathway participates in this differentiation pathway. Furthermore, M-Ras brought about ERK pathway-mediated activating phosphorylation of CREB and the CREB-mediated transcription. In addition, a dominant,negative mutant of CREB inhibited M-Ras-induced neuritogenesis. Taken together, NGF-induced PC12 cell differentiation requires M-Ras,ERK pathway-mediated activation of CREB. M-Ras was predominantly expressed in the hippocampus and cerebellum of mouse brain and in the gray matter of the spinal cord. All these properties of M-Ras were apparently indistinguishable from those of H-Ras. However, NGF stimulation caused transient activation of classical Ras proteins but sustained activation of M-Ras as well as sustained activating phosphorylation of ERK and CREB. Therefore, M-Ras is essential for neuronal differentiation in PC12 cells by inducing sustained activation of ERK pathway. [source] Fibroblast growth factor 23 reduces expression of type IIa Na+/Pi co-transporter by signaling through a receptor functionally distinct from the known FGFRs in opossum kidney cellsGENES TO CELLS, Issue 5 2005Xiaomei Yan Fibroblast growth factor (FGF) 23 is an important phosphaturic factor that inhibits inorganic phosphate (Pi) reabsorption from the renal proximal tubule. Its overproduction and proteolysis-resistant mutation such as R179Q cause tumor-induced osteomalacia and autosomal dominant hypophosphatemic rickets, respectively. To clarify the signaling mechanisms of FGF23 that mediate the reduction of Pi reabsorption, we inhibited the function of the known FGFRs in opossum kidney (OK-E) cells by expressing a dominant-negative (DN) form of FGFR. OK-E cells, which represent the renal proximal tubular cells, expressed all four known FGFRs. FGF23(R179Q) bound to and activated FGFR2, a prominent FGFR expressed in OK-E cells. The activated receptor transmitted a signal to increase the expression of type IIa Na+/Pi co-transporter and the Pi uptake. Expression of FGFR2(DN), which suppresses the major FGFR-mediated signal through the FRS2,-ERK pathway, reversed the function of FGF23(R179Q). When FGF23(R179Q) was applied to the basolateral side of polarized OK-E cells, regardless of the FGFR2(DN) expression, the apical Pi uptake decreased significantly. The apical application of FGF23(R179Q) in the polarized cells did not show such decrease but increase. The exogenously expressed FGFR2 was detectable only at the apical membrane. These results suggest that an FGF23 receptor, which is functionally distinct from the known FGFRs, is expressed at the basolateral membrane of OK-E cells. [source] Adrenomedullin regulates expressions of transforming growth factor-,1 and ,1-induced matrix metalloproteinase-2 in hepatic stellate cellsINTERNATIONAL JOURNAL OF EXPERIMENTAL PATHOLOGY, Issue 3 2006Yi Wang Summary Adrenomedullin (AM), a peptide isolated from human pheochromocytoma, can be produced and secreted by various types of cells including hepatic stellate cells (HSCs), and its possible role in HSCs is not clear now. In the present study, the interactive regulation between transforming growth factor (TGF)-,1 and AM and the effect of AM on TGF-,1-induced matrix metalloproteinase (MMP)-2 expression in HSCs were investigated. TGF-,1 and AM inhibited gene transcript level mutually (real-time reverse transcription-polymerase chain reaction). AM suppressed the protein expression level of TGF-,1 (Western blot), but TGF-,1 might have no effect on AM secretion level. MMP-2 protein expression in HSCs was increased in response to TGF-,1, and upregulation of MMP-2 expression stimulated with TGF-,1 was suppressed by AM in dose-dependent manner (Western blot). AM decreased the phosphorylation level of extracellular signal-regulated kinase (ERK) in HSCs treated with TGF-,1, and TGF-,1-induced MMP-2 expression was suppressed by adding Mitogen-activated protein Kinase/ERK (MEK) inhibitor U0126 (Western blot). Our results suggest that AM may intervene the activation of HSCs by inhibiting TGF-,1 production and TGF-,1-induced MMP-2 expression; AM may suppress the upregulation of MMP-2 expression induced by TGF-,1 partially through ERK pathway. [source] Mechanisms of inhibition of dehydroepiandrosterone upon corticosterone release from rat zona fasciculata-reticularis cells,JOURNAL OF CELLULAR BIOCHEMISTRY, Issue 2 2008Ling-Ling Chang Abstract We have demonstrated that dehydroepiandrosterone (DHEA) acts directly on rat zona fasciculata-reticularis (ZFR) cells to diminish corticosterone secretion by an inhibition of post-cAMP pathway, and decreases functions of steroidogenic enzymes after P450scc as well as steroidogenic acute regulatory (StAR) protein expression. However, the mechanisms by which DHEA engages with environmental messenger signals which translate into interfering StAR protein expression are still unclear. This study explored the effects of DHEA on the phosphorylation/activation of extracellular signal-regulated kinases (ERKs). ERK activation resulted in enhancing phosphorylation of steroidogenic factor-1 (SF-1) and increased StAR protein expression. ZFR cells were incubated in the presence or absence of adrenocorticotropin (ACTH), forskolin (FSK), 25-OH-cholesterol, U0126, and H89 at 37°C. The concentration of corticosterone released into the media was measured by radioimmunoassay (RIA). The cells were used to extract protein for Western blot analysis of ERKs or StAR protein expression or immunoprecipitation of SF-1 analysis. The results suggested that (1) ERK pathway of rat ZFR cells might be PKA dependent, (2) ERK activity was required for SF-1 phosphorylation to upregulate steroidogenesis in rat ZFR cells, and (3) DHEA did not affect ERK phosphorylation, however, it attenuated forskolin-stimulated SF-1 phosphorylation to affect StAR protein expression. J. Cell. Biochem. 104: 359,368, 2008. © 2007 Wiley-Liss, Inc. [source] Differential regulation of platelet-derived growth factor stimulated migration and proliferation in osteoblastic cells,JOURNAL OF CELLULAR BIOCHEMISTRY, Issue 4 2004Meenal Mehrotra Abstract Osteoblastic migration and proliferation in response to growth factors are essential for skeletal development, bone remodeling, and fracture repair, as well as pathologic processes, such as metastasis. We studied migration in response to platelet-derived growth factor (PDGF, 10 ng/ml) in a wounding model. PDGF stimulated a twofold increase in migration of osteoblastic MC3T3-E1 cells and murine calvarial osteoblasts over 24,48 h. PDGF also stimulated a tenfold increase in 3H-thymidine (3H-TdR) incorporation in MC3T3-E1 cells. Migration and DNA replication, as measured by BrdU incorporation, could be stimulated in the same cell. Blocking DNA replication with aphidicolin did not reduce the distance migrated. To examine the role of mitogen-activated protein (MAP) kinases in migration and proliferation, we used specific inhibitors of p38 MAP kinase, extracellular signal regulated kinase (ERK), and c-Jun N-terminal kinase (JNK). For these signaling studies, proliferation was measured by carboxyfluorescein diacetate succinimidyl ester (CFSE) using flow cytometry. Inhibition of the p38 MAP kinase pathway by SB203580 and SB202190 blocked PDGF-stimulated migration but had no effect on proliferation. Inhibition of the ERK pathway by PD98059 and U0126 inhibited proliferation but did not inhibit migration. Inhibition of JNK activity by SP600125 inhibited both migration and proliferation. Hence, the stimulation of migration and proliferation by PDGF occurred by both overlapping and independent pathways. The JNK pathway was involved in both migration and proliferation, whereas the p38 pathway was predominantly involved in migration and the ERK pathway predominantly involved in proliferation. © 2004 Wiley-Liss, Inc. [source] TNF-, induction of lipolysis is mediated through activation of the extracellular signal related kinase pathway in 3T3-L1 adipocytes,,JOURNAL OF CELLULAR BIOCHEMISTRY, Issue 6 2003Sandra C. Souza Abstract Tumor necrosis factor-, (TNF-,) increases adipocyte lipolysis after 6,12 h of incubation. TNF-, has been demonstrated to activate mitogen-activated protein (MAP) kinases including extracellular signal-related kinase (ERK) and N-terminal-c-Jun-kinase (JNK) in different cell types. To determine if the MAP kinases have a role in TNF-,-induced lipolysis, 3T3-L1 adipocytes were treated with the cytokine (10 ng/ml), in the presence or absence of PD98059 or U0126 (100 µM), specific inhibitors of ERK activity. We demonstrated that U0126 or PD98059 blocked TNF-,-induced ERK activity and decreased TNF-,-induced lipolysis by 65 or 76% respectively. The peroxisome-proliferator-activated receptor , (PPAR,) agonists, rosiglitazone (ros), and 15-deoxy-,- 12,14 - prostaglandin J2 (PGJ2) have been demonstrated to block TNF-,-induced lipolysis. Pretreatment of adipocytes with these agents almost totally blocked TNF-,-induced ERK activation and reduced lipolysis by greater than 90%. TNF-, also stimulated JNK activity, which was not affected by PD98059 or PPAR, agonist treatment. The expression of perilipin, previously proposed to contribute to the mechanism of lipolysis, is diminished in response to TNF-, treatment. Pretreatment of adipocytes with PD98059 or ros significantly blocked the TNF-,-induced reduction of perilipin A protein level as determined by Western analysis. These data suggest that activation of the ERK pathway is an early event in the mechanism of TNF-,-induced lipolysis. © 2003 Wiley-Liss, Inc. [source] High levels of MMP-1 expression in the absence of the 2G single nucleotide polymorphism is mediated by p38 and ERK1/2 mitogen-activated protein kinases in VMM5 melanoma cellsJOURNAL OF CELLULAR BIOCHEMISTRY, Issue 2 2002Ulrike Benbow Abstract Matrix metalloproteinase-1 (MMP-1) is one of only a few enzymes with the ability to degrade the stromal collagens (types I and III) at neutral pH, and high expression of MMP-1 has been associated with aggressive and invasive cancers. We recently reported a single nucleotide insertion/deletion polymorphism (SNP) in the collagenase-1 (MMP-1) promoter (Rutter et al. [1998] Can. Res. 58:5321,5325), where the insertion of an extra guanine (G) at ,1607 bp creates the sequence, 5,-GGAA-3 (2G allele), compared to the sequence 5,-GAA-3, (1G allele). The presence of 2G constitutes a binding site for the ETS family of transcription factors, and increases MMP-1 transcription in fibroblasts and A2058 melanoma cells cultured in vitro. In addition, the presence of the 2G allele has been linked to several aggressive malignancies as well as to enhanced expression of MMP-1. In this study, we describe a melanoma cell line, VMM5, that is 1G homozygous, but that is invasive and expresses high levels of MMP-1 constitutively. The high level of MMP-1 expression in VMM5 cells is due to the utilization of both the p38 and ERK1/2 transduction pathways. In contrast, in the A2058 cell line, which also expresses MMP-1 constitutively and which is 2G homozygous, only the ERK pathway is activated. Thus, our data suggest that in the absence of 2G allele and in the presence of the appropriate transcription factors, tumor cells may use alternative signal/transduction pathways and cis-acting sequences to achieve high levels of MMP-1 expression, which contribute to the ability of tumor cells to invade, regardless of their genotype. © 2002 Wiley-Liss, Inc. [source] Apoptosis induced by troglitazone is both peroxisome proliferator-activated receptor-,- and ERK-dependent in human non-small lung cancer cellsJOURNAL OF CELLULAR PHYSIOLOGY, Issue 2 2006Mingyue Li The role of the peroxisome proliferator-activated receptor-gamma (PPAR,) in cell differentiation, cell-cycle arrest, and apoptosis has attracted increasing attention. We have recently demonstrated that PPAR, ligands-troglitazone (TGZ) induced apoptosis in lung cancer cells. In this report, we further studied the role of ERK1/2 in lung cancer cells treated by TGZ. The result demonstrated that TGZ induced PPAR, and ERK1/2 accumulation in the nucleus, in which the co-localization of both proteins was found. The activation of ERK1/2 resulted in apoptosis via a mitochondrial pathway. Both PPAR, siRNA and U0126, a specific inhibitor of ERK1/2, were able to block these effects of TGZ, suggesting that apoptosis induced by TGZ was PPAR, and ERK1/2 dependent. Inhibition of ERK1/2 by U0126 also led to a significant decrease in the level of PPAR,, indicating a positive cross-talk between PPAR, and ERK1/2 or an auto-regulatory feedback mechanism to amplify the effect of ERK1/2 on cell growth arrest and apoptosis. In addition to ERK1/2, TGZ also activated Akt. Interestingly, inhibition of ERK1/2 prevented the activation of Akt whereas the suppression of Akt had no effect on ERK1/2, suggesting that Akt was not necessary for TGZ-PPAR,-ERK pathway. However, the inhibition of Akt promoted the release of cytochrome c, suggesting the activation of Akt may have a negative effect on apoptosis induced by TGZ. In conclusion, our study has demonstrated that TGZ, a synthetic PPAR, ligand, induced apoptosis in NCI-H23 lung cancer cells via a mitochondrial pathway and this pathway was PPAR, and ERK1/2 dependent. J. Cell. Physiol. 209: 428,438, 2006. © 2006 Wiley-Liss, Inc. [source] Novel targets for valproic acid: up-regulation of melatonin receptors and neurotrophic factors in C6 glioma cellsJOURNAL OF NEUROCHEMISTRY, Issue 5 2005Lyda M. Rincón Castro Abstract Valproic acid (VPA) is a potent anti-epileptic and effective mood stabilizer. It is known that VPA enhances central GABAergic activity and activates the mitogen-activated protein kinase,extracellular signal-regulated kinase (MAPK,ERK) pathway. It can also inhibit various isoforms of the enzyme, histone deacetylase (HDAC), which is associated with modulation of gene transcription. Recent in vivo studies indicate a neuroprotective role for VPA, which has been found to up-regulate the expression of brain-derived neurotrophic factor (BDNF) in the rat brain. Given the interaction between the pineal hormone, melatonin, and GABAergic systems in the central nervous system, the effects of VPA on the expression of the mammalian melatonin receptor subtypes, MT1 and MT2, were examined in rat C6 glioma cells. The effects of VPA on the expression of glial cell line-derived neurotrophic factor (GDNF) and BDNF were also examined. RT-PCR studies revealed a significant induction of melatonin MT1 receptor mRNA in C6 cells following treatment with 3 or 5 mm VPA for 24 h or 5 mm VPA for 48 h. Western analysis and immunocytochemical detection confirmed that the VPA-induced increase in MT1 mRNA results in up-regulation of MT1 protein expression. Blockade of the MAPK,ERK pathway by PD98059 enhanced the effect of VPA on MT1 expression, suggesting a negative role for this pathway in MT1 receptor regulation. In addition, significant increases in BDNF, GDNF and HDAC mRNA expression were observed after treatment with VPA for 24 or 48 h. Taken together, the present findings suggest that the neuroprotective properties of VPA involve modulation of neurotrophic factors and receptors for melatonin, which is also thought to play a role in neuroprotection. Moreover, the foregoing suggests that combinations of VPA and melatonin could provide novel therapeutic strategies in neurological and psychiatric disorders. [source] Ras/ERK signalling in cannabinoid tolerance: from behaviour to cellular aspectsJOURNAL OF NEUROCHEMISTRY, Issue 4 2005Tiziana Rubino Abstract We investigated the role of the Ras/extracellular-regulated kinase (ERK) pathway in the development of tolerance to ,9 -tetrahydrocannabinol (THC)-induced reduction in spontaneous locomotor activity by a genetic (Ras-specific guanine nucleotide exchange factor (Ras-GRF1) knock-out mice) and pharmacological approach. Pre-treatment of wild-type mice with SL327 (50 mg/kg i.p.), a specific inhibitor of mitogen-activated protein kinase kinase (MEK), the upstream kinase of ERK, fully prevented the development of tolerance to THC-induced hypolocomotion. We investigated the impact of the inhibition of ERK activation on the biological processes involved in cannabinoid tolerance (receptor down-regulation and desensitization), by autoradiographic cannabinoid CB1 receptor and cannabinoid-stimulated [35S]GTP,S binding studies in subchronically treated mice (THC, 10 mg/kg s.c., twice a day for 5 days). In the caudate putamen and cerebellum of Ras-GRF1 knock-out mice and SL327 pre-treated wild-type mice, CB1 receptor down-regulation and desensitization did not occur, suggesting that ERK activation might account for CB1 receptor plasticity involved in the development of tolerance to THC hypolocomotor effect. In contrast, the hippocampus and prefrontal cortex showed CB1 receptor adaptations regardless of the genetic or pharmacological inhibition of the ERK pathway, suggesting regional variability in the cellular events underlying the altered CB1 receptor function. These findings suggest that at least in the caudate putamen and cerebellum, the Ras/ERK pathway is essential for triggering the alteration in CB1 receptor function responsible for tolerance to THC-induced hypomotility. [source] Effect of Urotensin II on PC12 Rat Pheochromocytoma CellsJOURNAL OF NEUROENDOCRINOLOGY, Issue 2 2010Y. Aita Urotensin II (U-II), initially identified as a cyclic peptide from fish urophysis, acts both as a strong vasoconstrictor and vasodilator in the vasculature via its receptor, G-protein coupled receptor 14. In addition, U-II and its receptor are co-expressed in the adrenal medulla, as well as in human pheochromocytomas, suggesting that this peptide may have some function in chromaffin cells. However, the precise role of U-II in these cells is unknown. In the present study, we initially demonstrate that U-II and its receptors mRNA are co-expressed in the rat pheochromocytoma cell line PC12. Moreover, U-II has not effect on tyrosine hydroxylase (TH), the rate-limiting enzyme involved in the biosynthesis of catecholamine, in terms of enzyme activity or at the mRNA level. However, U-II does induce an increase in the phosphorylation of TH specifically at Ser31 without affecting phosphorylation at the two other sites (Ser19 and Ser40). U-II also markedly activates extracellular signal-regulated kinases (ERKs) and p38, but not Jun N-terminal kinase. Blockade of the epidermal growth factor (EGF) receptor by AG1478 significantly reduces activation of ERK, suggesting that EGF receptor transactivation could act upstream of the ERK pathway in PC12 cells. Furthermore, U-II significantly increases dopamine secretion from PC12 cells. Finally, we show that U-II induced significant DNA synthesis in a ERKs and P38 mitogen-activated protein kinase-dependent manner. The results obtained indicate that U-II may exert its effects as a neuromodulator in chromaffin cells. [source] Role of Dopamine D1 Receptors and Extracellular Signal Regulated Kinase in the Motivational Properties of Acetaldehyde as Assessed by Place Preference ConditioningALCOHOLISM, Issue 4 2010Liliana Spina Background:, The role of dopamine D1 receptors and Extracellular signal Regulated Kinase (ERK) in the motivational properties of drugs can be studied by place-conditioning. Recent advances have shown that the motivational properties of ethanol, determined by place-conditioning, are mediated by its metabolic conversion into acetaldehyde. To date, the role of D1 receptors and ERK activation in acetaldehyde-elicited place preference has not been determined. The aim of this study was to assess the role of D1 receptors blockade and MEK inhibition in the acquisition of acetaldehyde-elicited conditioned place preference. Methods:, Male Sprague,Dawley rats were subjected to repeated pairings with 1 compartment of the conditioning apparatus immediately following acetaldehyde (20 mg/kg i.g.) or ethanol (1 g/kg i.g.) administration. The D1 receptor antagonist, SCH 39166 (50 ,g/kg s.c.), was administered 10 minutes before acetaldehyde or ethanol administration. In order to study the role of activated ERK in the acetaldehyde-elicited place preference, rats were administered the MEK inhibitor, PD98059 (1, 30, and 90 ,g i.c.v.), 10 or 30 minutes before acetaldehyde. To verify the specificity of these effects, we also studied whether PD98059 pretreatment could affect morphine (1 mg/kg s.c.)-elicited place preference. Results:, Both acetaldehyde and ethanol elicited significant place preferences and these were prevented by pretreatment with SCH 39166. In addition, pretreatment with PD98059, dose (30 and 90 but not 1 ,g i.c.v.) and time (10 but not 30 minutes before) dependently, prevented the acquisition of acetaldehyde- and significantly reduced the acquisition of morphine-elicited conditioned place preference. Conclusions:, These results confirm that acetaldehyde and ethanol elicit conditioned place preference and demonstrate that D1 receptors are critically involved in these effects. Furthermore, the finding that PD98059 prevents the acquisition of acetaldehyde-elicited conditioned place preference highlights the importance of the D1 receptor,ERK pathway in its motivational effects. [source] Rho A participates in the regulation of phosphatidylserine-dependent procoagulant activity at the surface of megakaryocytic cellsJOURNAL OF THROMBOSIS AND HAEMOSTASIS, Issue 4 2004C. Kunzelmann Summary. Once exposed at the external surface of activated platelets or apoptotic cells, phosphatidylserine, an anionic phospholipid mostly sequestered in the inner leaflet of the plasma membrane, plays essential roles in hemostasis and phagocytosis. The mechanism governing the migration of the phosphatidylserine to the exoplasmic leaflet is not yet fully understood. We have proposed that store-operated calcium entry (SOCE) constitutes a key step of this process. ERK pathway is among the elements modulating SOCE and phosphatidylserine externalization in megakaryocytic HEL cells. Here, we investigated the role of small GTPase Rho A, which may interact with the ERK pathway. Specific inhibitors of Rho A (exoenzyme C3 and toxin B) reduced both SOCE and phosphatidylserine-dependent procoagulant activity. Simultaneous inhibition of Rho A and extracellular signal-regulated kinase (ERK) pathways did not elicit further reduction with respect to each individual one. Rho A can regulate SOCE and phosphatidylserine exposure through the reorganization of actin cytoskeleton, but not through ROCK pathway. Hence, Rho A is another regulatory element for the completion of SOCE-induced phosphatidylserine transmembrane redistribution in HEL cells. [source] Induction of fetal hemoglobin synthesis by valproate: Modulation of MAPkinase pathwaysAMERICAN JOURNAL OF HEMATOLOGY, Issue 1 2002O. Witt Abstract Valproate has been found to stimulate fetal hemoglobin (HbF) synthesis in patients with sickle cell disease. In accordance with these clinical observations, we found a moderate induction of HbF synthesis in K562 erythroid cells in vitro. Investigation of the role of the mitogen-activated protein kinase (MAPK) pathways by Western blot analysis and use of specific kinase inhibitors suggests that inhibition of ERK pathway and activation of the p38 pathway may contribute to the HbF-inducing activity of valproate. Am. J. Hematol. 71:45,46, 2002. © 2002 Wiley-Liss, Inc. [source] PLX4032, a selective BRAFV600E kinase inhibitor, activates the ERK pathway and enhances cell migration and proliferation of BRAFWT melanoma cellsPIGMENT CELL & MELANOMA RESEARCH, Issue 2 2010Ruth Halaban Summary BRAFV600E/K is a frequent mutationally active tumor-specific kinase in melanomas that is currently targeted for therapy by the specific inhibitor PLX4032. Our studies with melanoma tumor cells that are BRAFV600E/K and BRAFWT showed that, paradoxically, while PLX4032 inhibited ERK1/2 in the highly sensitive BRAFV600E/K, it activated the pathway in the resistant BRAFWT cells, via RAF1 activation, regardless of the status of mutations in NRAS or PTEN. The persistently active ERK1/2 triggered downstream effectors in BRAFWT melanoma cells and induced changes in the expression of a wide-spectrum of genes associated with cell cycle control. Furthermore, PLX4032 increased the rate of proliferation of growth factor-dependent NRAS Q61L mutant primary melanoma cells, reduced cell adherence and increased mobility of cells from advanced lesions. The results suggest that the drug can confer an advantage to BRAFWT primary and metastatic tumor cells in vivo and provide markers for monitoring clinical responses. [source] Identification of G2/M targets for the MAP kinase pathway by functional proteomicsPROTEINS: STRUCTURE, FUNCTION AND BIOINFORMATICS, Issue 16 2006Elisabeth C. Roberts Abstract Although the importance of the extracellular signal-regulated kinase (ERK) pathway in regulating the transition from G1 to S has been extensively studied, its role during the G2/M transition is less well understood. Previous reports have shown that inhibition of the ERK pathway in mammalian cells delays entry as well as progression through mitosis, suggesting the existence of molecular targets of this pathway in M phase. In this report we employed 2-DE and MS to survey proteins and PTMs in the presence versus absence of MKK1/2 inhibitor. Targets of the ERK pathway in G2/M were identified as elongation factor 2 (EF2) and nuclear matrix protein, 55,kDa (Nmt55). Phosphorylation of each protein increased under conditions of ERK pathway inhibition, suggesting indirect control of these targets; regulation of EF2 was ascribed to phosphorylation and inactivation of upstream EF2 kinase, whereas regulation of Nmt55 was ascribed to a delay in normal mitotic phosphorylation and dephosphorylation. 2-DE Western blots probed using anti-phospho-Thr-Pro antibody demonstrated that the effect of ERK inhibition is not to delay the onset of phosphorylation controlled by cdc2 and other mitotic kinases, but rather to regulate a small subset of targets in M phase in a nonoverlapping manner with cdc2. [source] Epidermal growth factor receptor lacking C-terminal autophosphorylation sites retains signal transduction and high sensitivity to epidermal growth factor receptor tyrosine kinase inhibitorCANCER SCIENCE, Issue 3 2009Mari Maegawa Constitutively active mutations of epidermal growth factor receptor (EGFR) (delE746_A750) activate downstream signals, such as ERK and Akt, through the phosphorylation of tyrosine residues in the C-terminal region of EGFR. These pathways are thought to be important for cellular sensitivity to EGFR tyrosine kinase inhibitors (TKI). To examine the correlation between phosphorylation of the tyrosine residues in the C-terminal region of EGFR and cellular sensitivity to EGFR TKI, we used wild-type (wt) EGFR, as well as the following constructs: delE746_A750 EGFR; delE746_A750 EGFR with substitution of seven tyrosine residues to phenylalanine in the C-terminal region; and delE746_A750 EGFR with a C-terminal truncation at amino acid 980. These constructs were transfected stably into HEK293 cells and designated HEK293/Wt, HEK293/D, HEK293/D7F, and HEK293/D-Tr, respectively. The HEK293/D cells were found to be 100-fold more sensitive to EGFR TKI (AG1478) than HEK293/Wt. Surprisingly, the HEK293/D7F and HEK293/D-Tr cells, transfected with EGFR lacking the C-terminal autophosphorylation sites, retained high sensitivity to EGFR TKI. In these three high-sensitivity cells, the ERK pathway was activated without ligand stimulation, which was inhibited by EGFR TKI. In addition, although EGFR in the HEK293/D7F and HEK293/D-Tr cells lacked significant tyrosine residues for EGFR signal transduction, phosphorylation of Src homology and collagen homology (Shc) was spontaneously activated in these cells. Our results indicate that tyrosine residues in the C-terminal region of EGFR are not required for cellular sensitivity to EGFR TKI, and that an as-yet-unknown signaling pathway of EGFR may exist that is independent of the C-terminal region of EGFR. (Cancer Sci 2009; 100: 552,557) [source] Age-related differences in insulin-like growth factor-1 receptor signaling regulates Akt/FOXO3a and ERK/Fos pathways in vascular smooth muscle cellsJOURNAL OF CELLULAR PHYSIOLOGY, Issue 2 2008Muyao Li Advanced age is a major risk factor for atherosclerosis, but how aging per se influences pathogenesis is not clear. Insulin-like growth factor-1 receptor (IGF-1R) promotes aortic vascular smooth muscle cell (VSMC) growth, migration, and extracellular matrix formation, but how IGF-1R signaling changes with age in VSMC is not known. We previously found age-related differences in the activation of Akt/FOXO3a and ERK1/2 pathways in VSMC, but the upstream signaling remains unclear. Using explanted VSMC from Fischer 344/Brown Norway F1 hybrid rats shown to display age-related vascular pathology similar to humans, we compared IGF-1R expression in early passages of VSMC and found a constitutive activation of IGF-1R in VSMC from old compared to young rats, including IGF-1R expression and its tyrosine kinase activity. The link between IGF-1R activation and the Akt/FOXO3a and ERK pathways was confirmed through the induction of IGF-1R with IGF-1 in young cells and attenuation of IGF-1R with an inhibitor in old cells. The effects of three kinase inhibitors: AG1024, LY294002, and TCN, were compared in VSMC from old rats to differentiate IGF-1R from other upstream signaling that could also regulate the Akt/FOXO and ERK pathways. Genes for p27kip-1, catalase and MnSOD, which play important roles in the control of cell cycle arrest and stress resistance, were found to be FOXO3a-targets based on FOXO3a-siRNA treatment. Furthermore, IGF-1R signaling modulated these genes through activation of the Akt/FOXO3a pathway. Therefore, activation of IGF-1R signaling influences VSMC function in old rats and may contribute to the increased risk for atherosclerosis. J. Cell. Physiol. 217: 377,387, 2008. © 2008 Wiley-Liss, Inc. [source] Role of gp130-mediated signalling pathways in the heart and its impact on potential therapeutic aspectsBRITISH JOURNAL OF PHARMACOLOGY, Issue S1 2008P Fischer IL-6-type cytokines bind to plasma membrane receptor complexes containing the common signal transducing receptor chain gp130 that is ubiquitously expressed in most tissues including the heart. The two major signalling cascades activated by the gp130 receptor, SHP2/ERK and STAT pathways, have been demonstrated to play important roles in cardiac development, hypertrophy, protection and remodelling in response to physiological and pathophysiological stimuli. Experimental data, both in vivo and in vitro, imply beneficial effects of gp130 signalling on cardiomyocytes in terms of growth and survival. In contrast, it has been reported that elevated serum levels of IL-6 cytokines and gp130 proteins are strong prognostic markers for morbidity and mortality in patients with heart failure or after myocardial infarction. Moreover, it has been shown that the local gp130 receptor system is altered in failing human hearts. In the present review, we summarize the basic principles of gp130 signalling, which requires simultaneous activation of STAT and ERK pathways under the tight control of positive and negative intracellular signalling modulators to provide a balanced biological outcome. Furthermore, we highlight the key role of the gp130 receptor and its major downstream effectors in the heart in terms of development and regeneration and in response to various physiological and pathophysiological stress situations. Finally, we comment on tissue-specific diversity and challenges in targeted pharmacological interference with components of the gp130 receptor system. British Journal of Pharmacology (2008) 153, S414,S427; doi:10.1038/bjp.2008.1; published online 4 February 2008 [source] ERK activation by mechanical strain is regulated by the small G proteins rac-1 and rhoAEXPERIMENTAL DERMATOLOGY, Issue 2 2004Julien Laboureau Abstract: Physical forces play an important role in regulating cell functions. We applied mechanical strain to human fibroblasts by magnetic attraction of superparamagnetic arginine-glycine-aspartic acid (RGD)-coated beads. We confirmed that the MAP kinases Erk and p38 are activated by mechanical strain, and went further by demonstrating the activation of Elk-1 by mechanical strain, mainly through a MEK-Erk pathway. Transfection of a dominant negative form of the G protein rac-1 (rac T17N), and inhibition of PI3K, an effector of rac-1, efficiently prevented Elk-1 activation by mechanical forces. Transfection with C3 transferase, known to inhibit rhoA, and inhibition of rock (a downstream effector of rhoA), gave similar results. However, contrary to the active form of rhoA (rho G14V), transfection of the active form of rac-1 (rac G12V) induced Elk activation and mimicked the effects of mechanical strain. These results point out that the two small G proteins rhoA and rac-1 participate in cell sensitivity to mechanical strain and lead to the modulation of the Erk pathway. [source] Laminin-2 stimulates the proliferation of epithelial cells in a conjunctival epithelial cell lineCELL PROLIFERATION, Issue 2 2004J. Dowgiert To test the hypothesis that LN-2 can additionally modulate epithelial cell biology, an analysis of the role of LN-2 in cell adhesion, activation of signalling intermediates and proliferation was undertaken. A virally transformed human conjunctival epithelial cell line (HC0597) was utilized in this study. Adhesion assays using function-inhibiting antibodies demonstrated that ,3,1 integrin is essential for the rapid attachment of conjunctival epithelial cells to LN-2. Bromodeoxyuridine (BrdU) incorporation analyses revealed that, compared with LN-1 or LN-10, LN-2 significantly promotes epithelial proliferation. Phosphorylation of the signalling intermediates Erk1/2 and Akt-1 was observed within 15 min of cell adhesion to LN-2. Inhibiting ,3,1 integrin function decreased total cellular phosphotyrosine levels, specifically inhibited phosphorylation of Erk1/2 and Akt-1, and dampened the proliferation response of epithelial cells adherent to LN-2. Inhibition of Erk or Akt activation inhibited cell proliferation in a dose-dependent manner. However, the inhibition of Erk resulted in a stronger suppression of proliferation compared with Akt inhibition. From these results, it is concluded that human conjunctival epithelial cells adhere to immobilized LN-2 using ,3,1 integrin. ,3,1 integrin/LN-2 signalling, transduced primarily through an Erk pathway, enhances epithelial cell proliferation. These results demonstrate that LN-2 can impact on epithelial cell biology in addition to nerve and muscle, and provide information regarding the role of this isoform in ocular surface epithelial cells. [source] | |||||||||||||||||||||||||||||||