Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:2.7.12.2 (MEK)
18,161 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The aim of the present investigation was to elucidate further the importance of p38 MAPK (mitogen-activated protein kinase) in nitric oxide- and cytokine-induced beta-cell death. For this purpose, isolated human islets were treated with d-siRNA (diced small interfering RNA) and then exposed to the nitric oxide donor DETA/NONOate [2,2'-(hydroxynitrosohydrazono)bis-ethanamine]. We observed that cells treated with p38alpha-specific d-siRNA, but not with d-siRNA targeting GL3 (a firefly luciferase siRNA plasmid) or PKCdelta (protein kinase Cdelta), were protected against nitric oxide-induced death. This was paralleled by an increased level of Bcl-XL (B-cell leukaemia/lymphoma-X long). For an in-depth study of the mechanisms of p38 activation, MKK3 (MAPK kinase 3), MKK6 and their dominant-negative mutants were overexpressed in insulin-producing RIN-5AH cells. In transient transfections, MKK3 overexpression resulted in increased p38 phosphorylation, whereas in stable MKK3-overexpressing RIN-5AH clones, the protein levels of p38 and JNK (c-Jun N-terminal kinase) were decreased, resulting in unaffected phospho-p38 levels. In addition, a long-term MKK3 overexpression did not affect cell death rates in response to the cytokines interleukin-1beta and interferon-gamma, whereas a short-term MKK3 expression resulted in increased cytokine-induced RIN-5AH cell death. The MKK3-potentiating effect on cytokine-induced cell death was abolished by a nitric oxide synthase inhibitor, and MKK3-stimulated p38 phosphorylation was enhanced by inhibitors of phosphatases. Finally, as the dominant-negative mutant of MKK3 did not affect cytokine-induced p38 phosphorylation, and as wild-type MKK3 did not influence p38 autophosphorylation, it may be that p38 is activated by MKK3/6-independent pathways in response to cytokines and nitric oxide. In addition, it is likely that a long-term increase in p38 activity is counteracted by both a decreased expression of the p38, JNK and p42 genes as well as an increased dephosphorylation of p38.
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PMID:Role of MKK3 and p38 MAPK in cytokine-induced death of insulin-producing cells. 1609 52

Thyroid hormone (TH) has a profound effect on astrocyte differentiation and maturation. Astrocytes cultured under TH-deficient conditions fail to transform from flat polygonal morphology to mature, process-bearing, stellate cells. Supplementation of physiological concentrations of TH initiate gradual transformation of the cells and the process takes approximately 48 h to complete. The signal transduction pathways associated with TH-mediated maturation of astrocytes have been investigated. TH treatment caused an initial activation of protein kinase A (PKA), with a peak activity at 2 h which fell back to basal level there after. Although there was no visible change in morphology of the cells during the observed activation of PKA, it was sufficient to drive the process of transformation to completion, suggesting the involvement of downstream regulators of PKA. PKA inhibitors as well as the MEK inhibitor PD098059 attenuated the TH-induced morphological transformation. Further studies showed that TH treatment resulted in a biphasic response on the cellular phospho-MAP kinase (p-MAPK or p-ERK) level: an initial decline in the p-ERK level followed by an induction at 18-24 h, both of which could be blocked by a PKA inhibitor. Such sustained activation of p-ERK levels by TH at this later stage coincided with initiation of morphological differentiation of the astrocytes and appeared to be critical for the transformation of astrocytes. The nitric oxide synthase (NOS) inhibitor 7-NI inhibited this induction of p-ERK activity. Moreover, the induction was accompanied by a parallel increase in phospho-CREB activity which, however, persisted at the end of the transformation of the astroglial cells.
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PMID:Thyroid hormone-induced morphological differentiation and maturation of astrocytes involves activation of protein kinase A and ERK signalling pathway. 1619 1

Acetylcholine (ACh) and opioid receptor agonists trigger the preconditioned phenotype through sequential activation of the epidermal growth factor (EGF) receptor, phosphatidylinositol 3-kinase (PI3-K), Akt, and nitric oxide synthase (NOS), and opening of mitochondrial (mito) K(ATP) channels with the generation of reactive oxygen species (ROS). Although extracellular signal-regulated kinase (ERK) has recently been reported to be part of this pathway, its location has not been determined. To address this issue, we administered a 5-min pulse of ACh (550 microM) prior to 30 min of ischemia in isolated rabbit hearts. It reduced infarction from 30.4 +/- 2.2% of the risk zone in control hearts to 12.3 +/- 2.8% and co-administration of the MEK, and, therefore, downstream ERK inhibitor U0126 abolished protection (29.1 +/- 4.6% infarction) con.rming ERK's involvement. MitoK(ATP) opening was monitored in adult rabbit cardiomyocytes by measuring ROS production with MitoTracker Red. ROS production was increased by each of three G protein-coupled agonists: ACh (250 microM), bradykinin (BK) (500 nM), and the delta-opioid agonist DADLE (20 nM). Co-incubation with the MEK inhibitors U0126 (500 nM) or PD 98059 (10 microM) blocked the increased ROS production seen with all three agonists. Direct activation of its receptor by EGF increased ROS production and PD 98059 blocked that increase, thus placing ERK downstream of the EGF receptor. Desferoxamine (DFO) which opens mitoK(ATP) through direct activation of NOS also increased ROS. PD 98059 could not block DFO-induced ROS production, placing ERK upstream of NOS. In isolated hearts, ACh caused phosphorylation of both Akt and ERK. U0126 blocked phosphorylation of ERK but not of Akt. The PI3-K inhibitor wortmannin blocked both. Together these data indicate that ERK is located between Akt and NOS.
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PMID:Localizing extracellular signal-regulated kinase (ERK) in pharmacological preconditioning's trigger pathway. 1628 91

During pregnancy, vascular remodeling and vasoactive agents such as nitric oxide (NO) increase blood flow to the uteroplacental unit. Using our uterine artery endothelial cell (UAEC) culture model, based on cells from pregnant (P-UAEC) and nonpregnant (NP-UAEC) ewes, we investigate the relative physiological roles of Ca(2+) vs. kinase in the regulation of endothelial NO synthase (eNOS) activity. When Ca(2+) mobilization is fully inhibited using inhibitors of phospholipase C (PLC) (U73122) and the inositol triphosphate (IP3) receptor (IP3-R) (2-APB), significant residual eNOS activity remains in both P- and NP-UAEC. No change in ATP-stimulated ERK2, Akt, or eNOS phosphorylation is observed with U73122 (0.01-1 microM) or 2-APB (1-50 microM). The MAPK kinase (MEK) 1/2 inhibitor U0126 (10 microM) did not alter ATP-stimulated eNOS activity in P-UAEC, but potentiated the ATP response in NP-UAEC. Using two phosphatidylinositol 3-kinase (PI3-K) inhibitors, we observed no effect with LY294002 (10 microM) on eNOS activity in P- and NP-UAEC, but wortmannin (10 microM) inhibited both P- and NP-UAEC eNOS activation. Expression of constitutively active Akt (ca-Akt) in UAEC resulted in slight elevation of basal eNOS activity, but relative ATP-stimulated eNOS activation was not altered by ca-Akt. Wortmannin continued to inhibit eNOS activation by ATP in the presence of ca-Akt; LY294002 still had no inhibitory effect. Our data indicate both [Ca(2+)](i) and multiple kinases are involved in the regulation of eNOS activity in our model. We report that pregnancy adaptation of eNOS activation includes the reduced sensitivity to ERK-mediated attenuation of eNOS activity and enhanced stimulation of eNOS activity through a wortmannin-sensitive, LY294002-insensitive, Akt-independent mechanism.
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PMID:Pregnancy-enhanced endothelial nitric oxide synthase (eNOS) activation in uterine artery endothelial cells shows altered sensitivity to Ca2+, U0126, and wortmannin but not LY294002--evidence that pregnancy adaptation of eNOS activation occurs at multiple levels of cell signaling. 1645 84

Our recent study has shown activation of spinal extracellular signal-regulated kinase-1 and -2 (ERK1/2), a member of the mitogen-activated protein kinase (MAPK) family, contributes to naloxone-precipitated withdrawal and withdrawal-induced spinal neuronal sensitization in morphine-dependent rats. However, the mechanism and significance of the spinal ERK1/2 activation during morphine dependence and withdrawal remain unknown. In this study, we reported that intrathecal (i.t.) pretreatment with either the non-selective nitric oxide synthase (NOS) inhibitor N(G)-nitro-L-arginine methyl ester (L-NAME), neuronal NOS (nNOS) inhibitor 7-nitro indazole (7-NI), or the inducible NOS (iNOS) inhibitor aminoguanidine (AG), could reduce morphine withdrawal-induced increase of phospho-ERK1/2 (pERK1/2) expression in the rat spinal cord. On the other hand, attenuation of the spinal ERK phosphorylation by the MAPK kinase (MEK) inhibitor U0126 also could inhibit the increase of nNOS and iNOS expression in the spinal cord of morphine withdrawal rats. Inhibitory expression of pERK1/2 by i.t. NOS inhibitor L-NAME, 7-NI or AG and of nNOS and iNOS by i.t. U0126 in the spinal cord were accompanied by decreased scores of morphine withdrawal and the inhibited spinal Fos protein (a maker for neuronal excitation or activation) expression induced by morphine withdrawal. These findings suggest cross talk between nitric oxide (NO) and the ERK1/2 signaling pathway mediates morphine withdrawal and withdrawal-induced spinal neuronal sensitization in morphine-dependent rats.
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PMID:Cross talk between nitric oxide and ERK1/2 signaling pathway in the spinal cord mediates naloxone-precipitated withdrawal in morphine-dependent rats. 1671 81

Although recent clinical trials have shown that amlodipine exerts antiatherogenic effects, the mechanism of these effects remains unknown. This study was designed to examine which signal transduction pathway might be important for the antiatherogenic property of amlodipine, as assessed by aortic smooth muscle cell (SMC) phenotypes in hypertension in vivo. Stroke-prone spontaneously hypertensive rats (SHRSP) were randomly treated with a vehicle, amlodipine, or enalapril while Wistar-Kyoto rats (WKY) used as controls were treated with only the vehicle. Both drugs were equally effective at reducing systolic blood pressure, and inhibiting the progression of aortic remodeling and fibrosis in comparison to those of vehicle-treated SHRSP. In the aortas of vehicle-treated SHRSP, the level of contractile-type smooth muscle (SM) myosin heavy chain (MHC) SM2 was significantly lower, whereas the level of synthetic-type MHC NMHC-B/SMemb was significantly higher compared with those in the WKY aortas. Compared to the vehicle-treated SHRSP group, both drugs significantly and equally shifted the aortic SMC phenotype in SHRSP toward the differentiated state by reducing NMHC-B/SMemb and increasing SM2. The levels of MKK6, p38 MAPK, MEK1 and p-42/44 ERK were significantly higher in the vehicle-treated SHRSP than in the WKY. Both drugs significantly reduced these values in the SHRSP aorta. Furthermore, the levels of MEK1 and p-42/44 ERK were significantly lower in the amlodipine- than in the enalapril-treated SHRSP group, whereas enalapril was more effective than amlodipine at increasing p-Akt and endothelial NO synthase in SHRSP aortas, which were significantly lower in the vehicle SHRSP group than in the WKY group. Thus, the MEK-ERK pathway might be one of the crucial determinants of the aortic SMC phenotype activated by amlodipine treatment of hypertension in vivo.
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PMID:Different effects of amlodipine and enalapril on the mitogen-activated protein kinase/extracellular signal-regulated kinase kinase-extracellular signal-regulated kinase pathway for induction of vascular smooth muscle cell differentiation in vivo. 1675 53

Nitric oxide (NO) is a small, uncharged molecule, which is primarily generated by the nitric oxide synthase (NOS) family of proteins, including neuronal nitric oxide synthase (nNOS), inducible NOS (iNOS), and endothelial NOS (eNOS). NO has been implicated in diverse roles in biological systems, such as the regulation of cell death and survival signaling pathways of a variety of cell types, including neuronal cells. In this study, we determined that the NO generated from l-arginine by ectopically overexpressed nNOS in HEK293 cells exerted an inhibitory effect against the activity of c-Jun N-terminal kinase (JNK), an important modulator of neuronal cell death and survival signaling pathways. NO repressed the activation of JNK, but exerted no significant effects on the activities of SEK1/MKK4 and MEKK1, which are the upstream MAPKK and MAPKKK of JNK1, respectively. This NO-mediated inhibition of JNK1 was not affected by the addition of ODQ, a guanylyl cyclase inhibitor, indicating that the effect is independent of the level of cyclic GMP. In an in vitro kinase assay, SNAP, a NO donor, was shown to directly suppress JNK1 activity, thereby indicating that NO is a direct modulator of JNK1. Moreover, the NO-mediated suppression of JNK1 was demonstrated to be redox-sensitive and dependent on the cysteine-116 in JNK1. Finally, according to the results of an immunohistochemical study using rat striatal neurons, we were able to determine that nNOS-expressing neurons evidenced significantly reduced JNK1 activation. Collectively, these data suggest that JNK1 is regulated by nNOS-mediated NO production in neurons, via a thiol-redox-sensitive mechanism.
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PMID:Neuronal nitric oxide synthase (nNOS) modulates the JNK1 activity through redox mechanism: a cGMP independent pathway. 1676 26

We studied the effect of tumor necrosis factor (TNF)-alpha exposure on cysteinyl leukotriene (LT) synthesis by cells of monocyte/macrophage lineage. TNF-alpha conditioning of monocytic THP-1 cells and primary human monocytes resulted in a decreased capacity for LTC(4) release. TNF-alpha exposure (for 16-24 h) decreased LTC(4) synthase mRNA in THP-1 cells, primary mouse bone marrow-derived macrophages, and eosinophilic AML14.3D10 cells. TNF-alpha downregulated LTC(4) synthase mRNA in THP-1 cells in a dose- and time-dependent manner, with downregulation observed as early as 4 h. The effect of TNF-alpha on LTC(4) synthase mRNA expression was mediated via the MEK/ERK pathway, but not via cyclooxygenase or nitric oxide synthase pathways. Conditioning of actinomycin D-treated cells with TNF-alpha did not accelerate degradation of LTC(4) synthase mRNA. TNF-alpha produced sustained activation of p50 and p65, which were previously reported by our group to decrease LTC(4) synthase promoter activity. In transiently transfected THP-1 cells, TNF-alpha decreased promoter activity via an element located within the first 620 bp of the promoter. We conclude that TNF-alpha exposure downregulates the synthetic capacity for cysteinyl LT release and LTC(4) synthase gene expression in monocytes/macrophages via a transcriptional mechanism.
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PMID:TNF-alpha downregulates the leukotriene C4 synthase gene in mononuclear phagocytes. 1698 Mar 79

To study mechanisms governing fetoplacental vascular function, we have established a primary ovine fetoplacental artery endothelial (OFPAE) cell line. These OFPAE cells produce nitric oxide (NO), proliferate, and migrate in response to fibroblast growth factor 2 (FGF2) and vascular endothelial growth factor (VEGF). To overcome the senescence crisis that this primary OFPAE cell line will eventually enter, we attempted to establish a functional OFPAE cell line with a prolonged life span by transfecting cells with plasmids containing a neomycin resistance gene and a simian virus 40 gene (SV40) expressing large T (T) and small t (t) antigens. The OFPAE cells at passage 8 were transfected. After neomycin selection, the surviving OFPAE (designated SV40 OFPAE) cells were expanded up to passage 80. Up to passage 30, these SV40 OFPAE cells maintained a morphology similar to untransfected OFPAE cells. Expression of T and t antigens in SV40 OFPAE cells was confirmed by immunocytochemistry. These SV40 OFPAE cells exhibited positive uptake of acetylated low-density lipoprotein (Ac-LDL) and positive staining for NO synthase 3 (NOS3) and formed capillary-like tube structures on Matrigel. Up to passages 20-23, these SV40 OFPAE cells proliferated (P < 0.05) and produced (P < 0.05) NO in response to both FGF2 and VEGF. Moreover, this cell proliferation stimulated by FGF2 and VEGF was dose-dependently inhibited (P < 0.05) by PD98059 (a selective mitogen-activated protein kinase 1 and 2 [MAP2K1/2, also termed MEK1/2] inhibitor) or by LY294002 (a selective phosphoinositide 3-kinase [PI3K] inhibitor). These data indicate that SV40 OFPAE cells, at least at passage 23, retain endothelial phenotypes and functions similar to their parental, untransfected OFPAE cells. Thus, a functional OFPAE cell line with an extended life span has been successfully established, potentially providing a valuable cell model for studying fetoplacental endothelial function.
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PMID:Establishment of a functional ovine fetoplacental artery endothelial cell line with a prolonged life span. 1700 40

Mechanical strain of lung tissue is an important stimulus for the production of growth factors that are critical for lung growth and development. However, excessive mechanical strain, as may occur during mechanical ventilation, may produce an increase in growth factors that may contribute to lung injury. We hypothesized that mechanical strain of primary bronchial airway epithelial cells (BAEpCs) induced the production of placental growth factor (PlGF), a member of the VEGF family. BAEpCs were cultured on a deformable silicoelastic membrane and exposed to different magnitudes of stretch. Stretch induced PlGF and nitric oxide (NO) production that increased with increasing magnitude of stretch. Stretch also induced PlGF and inducible NO synthase (iNOS) gene expression. The stretch-induced PlGF production and NO synthesis were attenuated by PD98059, a specific mitogen-activated protein kinase kinase-1 and -2 inhibitor. Inhibition of NO generation by l-NAME or l-NMMA or scavenging NO by carboxy-PTIO prevented stretch-mediated erk1/2 activation. In addition, in unstretched BAEpCs, exogenous NO enhanced erk1/erk2 activation. Our data suggest that mechanical stretch of BAEpCs induces iNOS expression and induces PlGF release in an erk1/2 activation-dependent manner.
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PMID:Cyclic stretch induces PlGF expression in bronchial airway epithelial cells via nitric oxide release. 1702 67


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