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:2.7.11.24 (mitogen-activated protein kinase)
95,810 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To evaluate the role of the "Ras pathway" in mediating metabolic signaling by insulin, we employed lovastatin to exhibit isoprenilation of Ras proteins in Rat-1 fibroblasts transfected with human insulin receptors (HIRc cells) and in differentiated 3T3-L1 adipocytes. Lovastatin blocked an ability of insulin to activate p21ras and mitogen-activated protein kinase. Lovastatin also significantly (p < 0.01) reduced insulin effects on thymidine incorporation and glucose incorporation into glycogen. Nevertheless, an effect of insulin on glucose uptake remained unaffected. It appears that in contrast to its mitogenic action and to its effect on glycogenesis, an effect of insulin on glucose uptake does not require p21ras activation.
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PMID:Differential requirement for p21ras activation in the metabolic signaling by insulin. 783 30

Lovastatin, a cholesterol biosynthesis inhibitor, has recently been shown to inhibit mitogenesis and tumor growth. We have investigated the effects of lovastatin on the activation of MAP kinase by insulin using as a model HIRcB cells, a rat fibroblast cell line that overexpresses the human insulin receptor. Treatment with lovastatin (1-30 microM) for 24 h decreased the level of activation of MAP kinase by insulin by as much as 60%. Immunoblotting experiments using a specific anti-MAP kinase monoclonal antibody demonstrated that the amount of MAP kinase protein in the cells was not altered by lovastatin treatment. Likewise, lovastatin had no apparent effects on the expression of the insulin receptor. Treatment with lovastatin (20 microM) reduced the percentage of farnesylated Ras by 50%. Immunoprecipitation of tyrosine phosphorylated proteins from HIRcB cell lysates followed by immunodetection of MAP kinase using specific antibodies demonstrated a reduced level of insulin-induced tyrosine phosphorylation levels of MAP kinase in lovastatin-treated cells. Furthermore, immunodetection of the beta-subunit of the insulin receptor in anti-phosphotyrosine immunoprecipitates revealed that treatment with lovastatin reduced the tyrosine phosphorylation levels of the receptor. Lysates obtained from cells treated with increasing concentrations of lovastatin demonstrated a dose-dependent inhibition of the insulin-induced tyrosine phosphorylation of the receptor. Treatment with mevalonic acid prevented the effects of lovastatin demonstrating that the effects of the drug are a consequence of its inhibitory effects on the synthesis of steroids. It is concluded that, in addition to inhibition of Ras farnesylation, lovastatin reduces receptor tyrosine phosphorylation levels which also contributes to the blockade of MAPK activation by the insulin receptor.
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PMID:Lovastatin inhibits the stimulation of mitogen-activated protein kinase by insulin in HIRcB fibroblasts. 861 Oct 28

Oncogenic H-Ras requires farnesylation for its transforming activity. Lovastatin inhibits both protein farnesylation and geranylgeranylation by decreasing cellular pools of farnesylpyrophosphate (FPP) and geranylgeranylpyrophosphate (GGPP), respectively. Use of lovastatin as a chemotherapeutic agent has been precluded by its significant cytotoxic effects. In this report, we describe a novel approach utilizing a combination of lovastatin and geranylgeraniol (GGOH) to potentiate the ability of lovastatin to block oncogenic H-Ras signaling and concomitantly rescue lovastatin toxicity. GGOH co-treatment with lovastatin enhances inhibition of oncogenic H-Ras processing and constitutive activation of mitogen-activated protein kinase (MAPK), and preserves the processing of geranylgeranyltransferase (GGTase) I and GGTase II protein substrates. Moreover, co-treatment with GGOH significantly (15-fold) attenuates the cytotoxic effects of lovastatin as well as prevents lovastatin-induced cell rounding. These results demonstrate that GGOH potentiates the anti-oncogenic/anti-signaling activity of lovastatin while antagonizing its cytotoxicity. These opposing effects are due to a GGOH metabolite that serves simultaneously as a potent inhibitor for farneslyltransferase as well as a substrate for GGTases I and II.
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PMID:Geranylgeraniol potentiates lovastatin inhibition of oncogenic H-Ras processing and signaling while preventing cytotoxicity. 901 16

It is not certain whether activation of the Ras/mitogen-activated protein (MAP) kinase pathway is involved in cardiac hypertrophy. 3-Hydroxy-3-methylglutaryl-coenzyme A (HMG-CoA) reductase inhibitors, such as lovastatin, prevent farnesylation of the Ras protein, which is critical for Ras's membrane localization and function. Therefore, the present study was undertaken to investigate the role of the Ras pathway, which is linked to mevalonate metabolism, in the mechanism of stretch-induced myocyte hypertrophy. Myocytes isolated from 1- to 2-day-old rats were cultured at 4.1 x 10(6) cells per well in a deformable silicon dish and incubated with serum-free medium for 7 days. The cultures were stretched by 15% on culture day 4. Stretch increased the RNA/DNA ratio by 20% to 26% on culture days 5 and 6 and the protein/DNA ratio by 18% to 20% on culture days 6 and 7. Stretch accelerated rates of protein synthesis by 24% on culture day 6. Stretch increased protein kinase C (PKC) activity, MAP kinase activity, and c-fos mRNA expression. A selective PKC inhibitor, calphostin C (1 x 10(-6) M), prevented the stretch-induced increase in PKC activity, but lovastatin (7.5 x 10(-6) M) did not. Lovastatin as well as calphostin C partially but significantly inhibited the stretch-induced increases in MAP kinase activity, c-fos mRNA expression, and protein synthesis. Pretreatment with both lovastatin and calphostin C completely inhibited the increases in these variables caused by stretch. Lovastatin as well as calphostin C prevents stretch-induced cardiac hypertrophy. These results suggest that mechanical stretch may activate the Ras pathway, which is linked to mevalonate metabolism, in cultured neonatal rat heart cells.
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PMID:Mechanical stretch activates a pathway linked to mevalonate metabolism in cultured neonatal rat heart cells. 966 7

Intermediary metabolites of cholesterol synthetic pathway are involved in cell proliferation. Lovastatin, an inhibitor of 3-hydroxy-3-methylglutaryl coenzyme A reductase, blocks mevalonate synthesis, and has been shown to inhibit mesangial cell proliferation associated with diverse glomerular diseases. Since inhibition of farnesylation and plasma membrane anchorage of the Ras proteins is one suggested mechanism by which lovastatin prevents cellular proliferation, we investigated the effect of lovastatin and key mevalonate metabolites on the activation of mitogen-activated protein kinase (MAP kinase) and Ras in murine glomerular mesangial cells. The preincubation of mesangial cells with lovastatin inhibited the activation of MAP kinase stimulated by either FBS, PDGF, or EGF. Mevalonic acid and farnesyl-pyrophosphate, but not cholesterol or LDL, significantly prevented lovastatin-induced inhibition of agonist-stimulated MAP kinase. Lovastatin inhibited agonist-induced activation of Ras, and mevalonic acid and farnesylpyrophosphate antagonized this effect. Parallel to the MAP kinase and Ras data, lovastatin suppressed cell growth stimulated by serum, and mevalonic acid and farnesylpyrophosphate prevented lovastatin-mediated inhibition of cellular growth. These results suggest that lovastatin, by inhibiting the synthesis of farnesol, a key isoprenoid metabolite of mevalonate, modulates Ras-mediated cell signaling events associated with mesangial cell proliferation.
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PMID:Effect of inhibition of cholesterol synthetic pathway on the activation of Ras and MAP kinase in mesangial cells. 1008 72

Tumor production of parathyroid hormone-related protein (PTHRP) is responsible for most cases of hypercalcemia of malignancy. The transplantable rat Leydig tumor H-500 is known to cause hypercalcemia in rats by the release of abundant PTHRP and to closely reproduce the human syndrome. We have demonstrated recently that Ras oncogene can stimulate PTHRP gene expression in Fr3T3 fibroblasts in vitro and cause hypercalcemia in vivo. Using rat Leydig tumor H-500 cells, we have investigated the role of effector pathways downstream of Ras in serum-induced PTHRP expression. The Ras inhibitors B-1086 and Lovastatin decreased PTHRP mRNA expression. i.p. administration of B-1086 (50-100 mg/kg/day) into H-500 tumor-bearing male Fischer rats resulted in a dose-dependent reduction in tumor volume, serum calcium, plasma PTHRP, and tumoral PTHRP mRNA expression. Transient transfection of dominant-negative Ras (Ras N17) and Raf (Raf C4B) reduced, whereas activated Raf-1 (Raf BXB) increased, basal expression of PTHRP in H-500 cells. A similar decrease in PTHRP production was seen with a mitogen-activated protein kinase kinase (MEK) inhibitor (PD 098059), implicating the involvement of Ras/Raf/MEK/extracellular signal-regulated kinase (ERK) pathway. In addition, stimulation with UV light, which can activate c-Jun NH2-terminal kinase (JNK), or expression of an activated form of Rac (Rac V12) was sufficient to increase PTHRP mRNA. Moreover, a dominant-negative Rac (Rac N17) blocked serum-induced PTHRP gene expression. Collectively, these results demonstrate that PTHRP is induced via both Raf-ERK and Rac-JNK mediated pathways, effects which can be blocked by chemical inhibitors and dominant-negative mutants of these pathways in vitro and in vivo. Availability of selective inhibitors of Ras signaling molecules may therefore add to our existing armamentarium to control hypercalcemia of malignancy.
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PMID:Role of mitogen-activated protein kinases in the induction of parathyroid hormone-related peptide. 1074 50

L-Selectin-mediated rolling of leukocytes on endothelial cells is an important step for lymphocyte homing and an early event in the immune response to pathogens or inflammatory stimuli. We have previously elucidated intracellular signaling cascades upon L-selectin engagement resulting in activation of Ras, Rac and JNK as well as cytoskeletal changes, oxygen release, ceramide synthesis and receptor capping. Activation of the src-tyrosine kinase p56lck is followed by phosphorylation of the L-selectin molecule and MAP-K. Here we show a tyrosine kinase dependent phosphorylation of the Cbl adapter protein after L-selectin engagement in lymphocytes. Phosphorylation of Cbl was absent in Jurkat cells that are pharmacologically treated with tyrosine kinase inhibitors and in lck-deficient JCaM cells. There is an activation induced association of tyrosine phosphorylated Cbl with Grb2 and CrkL, respectively, but not CrkII. Therefore, the adapter protein Cbl plays a role in L-selectin signaling and might modulate immune function by the specific recruitment of signaling molecules to multiprotein complexes.
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PMID:L-selectin tyrosine phosphorylates cbl and induces association of tyrosine-phosphorylated cbl with crkl and grb2. 1126 68

We have recently reported that the activation of mitogen-activated protein kinase (MAPK) through specific protein kinase C (PKC) isoforms is required for basic fibroblast growth factor (bFGF)-induced proliferation of coronary smooth muscle cells (cSMC). In this study, we investigated the effects of the 3hydroxy-3-methyl glutaryl coenzyme A (HMG CoA) reductase inhibitor lovastatin on bFGF-induced signal transduction in cSMC. The present study shows that lovastatin inhibits bFGF-stimulated DNA synthesis in cSMC, and that this inhibition is reversed by mevalonate (50 micromol/l) and by geranylgeranyl-pyrophosphate (1-5 micromol/l). Although lovastatin prevented Ras farnesylation the amount of bFGF-stimulated MAPK phosphorylation decreased only partially after lovastatin treatment. In addition, lovastatin pretreatment resulted in a sustained phosphorylation of MAPK. We observed a dose-dependent lovastatin-dependent increase in PKC activity, which could be prevented by mevalonate. This increase was comparable to the one induced by calyculin A (2 nmol/l), an inhibitor of protein phosphatase PP-1 and PP-2A. Lovastatin inhibited the expression of the PP-1 protein, which is involved in bFGF-induced DNA synthesis in cSMC. Thus, our data suggest that, lovastatin possibly affects the dephosphorylation processes of PKC and MAPK by inhibition of PP-1/PP-2A protein phosphatases which are involved in the bFGF-induced mitogenesis in cSMC.
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PMID:Lovastatin blocks basic fibroblast growth factor-induced mitogen-activated protein kinase signaling in coronary smooth muscle cells via phosphatase inhibition. 1132 84

Cytosine arabinoside (ara-C) is widely used for the treatment of leukemias and displays significant toxicities. Lovastatin, an HMG-CoA reductase inhibitor, is extensively used to treat hypercholesterolemia. To determine whether lovastatin could augment ara-C's activity we have examined their effects in the human erythroleukemia K562 cell line and the ara-C resistant ARAC8D cell line. A synergistic interaction between the two drugs was found. We have demonstrated that the interaction does not occur at the level of RAS but may involve lovastatin's effect of downregulating MAPK activity and preventing ara-C-induced MAPK activation. These studies represent the first description of a potentially beneficial interaction between lovastatin and ara-C that could be applied to the treatment of human leukemia.
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PMID:Interaction of cytosine arabinoside and lovastatin in human leukemia cells. 1139 70

Lovastatin has been proven to effectively lower circulating LDL cholesterol and to exert antiproliferative effects on various cell lines, the latter effect being only incompletely understood. We found that lovastatin modulates the signal transducing phosphorylation cascade in vascular smooth muscle cells in a mevalonate-independent manner. Lovastatin was found to distinctively increase total phosphotyrosine levels in smooth muscle cells, an effect which could not be restored by mevalonate. At a concentration of 5 micromol/L lovastatin had a highly specific effect on the mitogen-activated protein kinase pathway. The expression of p42/44 mitogen-activated protein kinase (MAPK) was clearly reduced, but could be restored by addition of mevalonate, while the phosphorylation of p44 was mildly suppressed and the phosphorylation of p42 MAPK was reduced to non-detectable levels. While the phosphorylation of p44 MAPK could partially be restored by addition of mevalonate, the reduced phosphorylation of p42 MAPK could not be restored by addition of excessive doses of mevalonate or stimulation of the cells with basic fibroblast growth factor. Concurrently the expression of the GTP-binding Ras protein was significantly elevated at 5 and 20 micromol/L lovastatin, this effect being attenuated by addition of mevalonate to cell cultures. The data indicate that lovastatin is capable of modulating cellular signaling independently of the cholesterol synthesis pathway.
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PMID:Lovastatin controls signal transduction in vascular smooth muscle cells by modulating phosphorylation levels of mevalonate-independent pathways. 1140 22


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