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)

The ability of macrophages to secrete reactive oxygen intermediates, as well as reactive nitrogen intermediates, correlates closely with their capacity to perform two critical effector functions: intracellular killing of microorganisms and lysis of tumor cells. In this study, age-associated changes in the ability of caseinate-elicited peritoneal macrophages to release hydrogen peroxide were determined. Macrophages from aged BALB/c mice produced 50% less hydrogen peroxide than those from young mice in response to PMA or opsonized zymosan. In contrast, the production of macrophage-activating cytokines including IFN-gamma was not diminished in splenocyte supernatants from the aged group. Furthermore, no difference was detected in surface expression of IFN-gamma receptor in old and young mice. Macrophage responses to IFN-gamma, however, declined with aging. In vitro, IFN-gamma-induced release of hydrogen peroxide and nitric oxide was 50% lower in old mice than in young mice. IFN-gamma-induced tyrosine phosphorylation of MAPK, an early activation event, was undetectable in macrophages from the aged mice. These data demonstrate that diminished responses of macrophages to activating signals are one aspect of the impaired immune response in aged mice.
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PMID:Effect of aging on murine macrophages. Diminished response to IFN-gamma for enhanced oxidative metabolism. 751 41

Reactive free radicals have been implicated in mediating signal transduction by a variety of stimuli. We have investigated the role of p21ras in mediating free radical signaling. Our studies revealed that signaling by oxidative agents which modulate cellular redox status, such as H2O2, hemin, Hg2+, and nitric oxide was prevented in cells in which p21ras activity was blocked either through expression of a dominant negative mutant or by treating with a farnesyltransferase inhibitor, as assessed by NF-kappa B binding activity. Furthermore, the NF-kappa B response to these oxidative stress stimuli was found to be enhanced when cells from the human T cell line, Jurkat, were pretreated with L-buthionine-(S,R)-sulfoximine, an inhibitor of glutathione synthesis. We directly assayed p21ras and mitogen-activated protein kinase activities in Jurkat cells and found both of these signaling molecules to be activated in cells treated with the redox modulating agents. Blocking glutathione synthesis made cells 10- to 100-fold more sensitive to these agents. Finally, using recombinant p21ras in vitro, we found that redox modulators directly promoted guanine nucleotide exchange on p21ras. This study suggests that direct activation of p21ras may be a central mechanism by which a variety of redox stress stimuli transmit their signal to the nucleus.
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PMID:p21ras as a common signaling target of reactive free radicals and cellular redox stress. 767 52

The endothelial response to kinin stimulation is the result of a series of complex intracellular reactions involving changes in the intracellular concentration of free calcium ([Ca2+]i) and intracellular pH, enhanced phosphorylation of several proteins via the activation of at least four distinct families of protein kinases, and activation of membrane ion transport systems. Some of the more recent developments in this field suggest that endothelial tyrosine kinases and tyrosine phosphatases as well as serine/threonine phosphatases are also activated in response to bradykinin. In addition, the finding that the mitogen-activated protein kinase (MAP kinase) pathway was tyrosine phosphorylated, and presumably activated, in endothelial cells after an increase in [Ca2+]i has wideranging implications for these cells. Indeed, MAP kinase recognizes many different substrates in the cell, including growth factor receptors, microtubule-associated proteins, specific serine-threonine protein kinases, phospholipase A2, and transcription factors. Further recent studies of interest have underscored the role of endothelium-derived hyperpolarizing factor in addition to nitric oxide and prostacyclin in the coronary vasculature. Indeed, this mediator, which seems to be an endothelium-derived, cytochrome P450-derived metabolite of arachidonic acid, would now appear to represent a substantial constitutive component of the vasodilator response to bradykinin.
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PMID:Molecular responses of endothelial tissue to kinins. 852 5

Many studies have identified nitric oxide (NO) and related chemical species (NOx) as having critical roles in neurotransmission, vasoregulation, and cellular signaling. Previous work in this laboratory has focused on elucidating the mechanism of NOx signaling in cells. We have demonstrated that NOx-induced activation of the guanine nucleotide-binding protein p21(ras) leads to nuclear translocation of the transcription factor NFkappaB. Here, we investigated whether intermediary signaling elements, namely the mitogen-activated protein (MAP) kinases, are involved in mediating NOx signaling. We found that NOx activates the extracellular signal-regulated kinase (ERK), p38, and c-Jun NH2-terminal kinase (JNK) subgroups of MAP kinases in human Jurkat T cells. JNK was found to be 100-fold more sensitive to NOx stimulation than p38 and ERK. In addition, the activation of JNK and p38 by NOx was more rapid than ERK activation. Depletion of intracellular glutathione augmented the NOx-induced increase in kinase activity. Furthermore, endogenous NO, generated from NO synthase, activated ERK, and NOx-induced MAP kinase activation was effectively blocked by the farnesyl transferase inhibitor alpha-hydroxyfarnesylphosphonic acid. These data support the hypothesis that critical signaling kinases, such as ERK, p38, and JNK, are activated by NO-related species and thus participate in NO signal transduction. These findings establish a role for multiple MAP kinase signaling pathways in the cellular response to NOx.
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PMID:Differential activation of mitogen-activated protein kinases by nitric oxide-related species. 870 74

The normal functional state of the vasculature and the events leading to the development of significant arterial disease involve the interaction of important vasoactive substances, which play important modulating or initiating roles in the development of hypertension and arteriosclerosis. Three endothelins have now been identified, of which ET-1 is the best characterized. ET-1 is produced by epithelial, mesangial, neuronal and glial, and liver cells, and is the most potent vasoconstrictor yet found. Each endothelin is derived from a different gene on separate chromosomes, and each binds to at least 2 types of receptor. The plasma half-life of ET-1 is about 7 min, and this provides a rapid mechanism for adjusting vascular resistance or blood pressure. The actions of endothelin are mediated through several pathways of postreceptor signaling, including activation of the mitogen-activated protein kinase cascade, which give rise to its growth-stimulating properties. Secretion of ET-1 from cultured endothelial cells is stimulated by a wide range of substances, and is inhibited by some prostaglandins. Endothelin in turn stimulates secretion of nitric oxide, arginine vasopressin and atrial natriuretic peptide, and participates in the hormonal control of salt and water balance. Hypoxia and ischemia augment ET-1 secretion, as does insulin, and this could play a role in the accelerated vascular disease of diabetes. ET-1 also causes bronchoconstriction and has been implicated in the development of acute asthma, primary pulmonary hypertension and pulmonary fibrosis. Its role in hypertension is still debatable, though most of the manifestations of congestive heart failure can theoretically be explained by the actions of ET-1. Endothelin also has extensive renovascular and parenchymal effects in the kidney. It is hoped that a fuller understanding of the role of endothelins in normal or pathologic vasculature will lead to effective therapy based on antagonism or augmentation of specific functions.
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PMID:Endothelins as cardiovascular peptides. 873 84

Growth hormone (GH) has long been known to stimulate linear growth and regulate metabolism. The cellular mechanism by which GH elicits these effects has only recently begun to be understood. This review provides an overview of a current model of GH signaling. Briefly, binding of GH to GH receptor induces receptor dimerization and activation of the tyrosine kinase JAK2. Tyrosyl phosphorylation of GH receptor and JAK2 recruits and activates signaling molecules such as Stat transcription factors, SHC, and insulin receptor substrates 1 and 2 that lead to the release of second messengers such as diacylglycerol, calcium, and nitric oxide and the activation of enzymes such as mitogen-activated protein kinase, protein kinase C, phospholipase A2, and phosphatidylinositol 3'-kinase. These pathways regulate cellular function including gene transcription, metabolite transport, and enzymatic activity that result in the ability of GH to control body growth and metabolism.
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PMID:Mechanism of signaling by growth hormone receptor. 887 95

We have identified the site of molecular interaction between nitric oxide (NO) and p21(ras) responsible for initiation of signal transduction. We found that p21(ras) was singly S-nitrosylated and localized this modification to a fragment of p21(ras) containing Cys118. A mutant form of p21(ras), in which Cys118 was changed to a serine residue and termed p21(ras)C118S, was not S-nitrosylated. NO-related species stimulated guanine nucleotide exchange on wild-type p21(ras), resulting in an active form, but not on p21(ras)C118S. Furthermore, in contrast to parental Jurkat T cells, NO-related species did not stimulate mitogen-activated protein kinase activity in cells transfected with p21(ras)C118S. These data indicate that Cys118 is a critical site of redox regulation of p21(ras), and S-nitrosylation of this residue triggers guanine nucleotide exchange and downstream signaling.
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PMID:A molecular redox switch on p21(ras). Structural basis for the nitric oxide-p21(ras) interaction. 902 Jan 51

The inflammatory cytokine interleukin 1beta (IL-1beta) induces both cyclooxygenase-2 (Cox-2) and the inducible nitric-oxide synthase (iNOS) with increases in the release of prostaglandins (PGs) and nitric oxide (NO) from glomerular mesangial cells. However, the intracellular signaling mechanisms by which IL-1beta induces iNOS and Cox-2 expression is obscure. Our current studies demonstrate that IL-1beta produces a rapid increase in p38 mitogen-activated protein kinase (MAPK) phosphorylation and activation. Serum starvation and SC68376, a drug which selectively inhibits p38 MAPK in mesangial cells, were used to investigate whether p38 MAPK contributes to the signaling mechanism of IL-1beta induction of NO and PG synthesis. Serum starvation and SC68376 selectively inhibited IL-1beta-induced activation of p38 MAPK. Both SC68376 and serum starvation enhanced NO biosynthesis by increasing iNOS mRNA expression, protein expression, and nitrite production. In contrast, both SC68376 and serum starvation suppressed PG release by inhibiting Cox-2 mRNA, protein expression, and PGE2 synthesis. These data demonstrate that IL-1beta phosphorylates and activates p38 MAPK in mesangial cells. The activation of p38 MAPK may provide a crucial signaling mechanism, which mediates the up-regulation of PG synthesis and the down-regulation of NO biosynthesis induced by IL-1beta.
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PMID:p38 mitogen-activated protein kinase down-regulates nitric oxide and up-regulates prostaglandin E2 biosynthesis stimulated by interleukin-1beta. 906 83

Fluid shear stress is one of the most important mechanical forces acting upon vascular endothelium, because of its location at the interface between the bloodstream and vascular wall. Recent evidence indicates that several intracellular signaling events are stimulated in endothelial cells in response to shear stress. Through these events, shear stress modulates endothelial cell function and vascular structure, but the molecular basis of shear stress mechanotransduction remains to be elucidated. In our research we have focused on three temporal signal responses to shear stress: (1) production of nitric oxide (NO) as an immediate response; (2) activation of extracellular-regulated kinases (ERK1/2; p44/p42 mitogen-activated protein (MAP) kinases) as a rapid response, and (3) tyrosine phosphorylation of focal adhesion kinase (FAK) as a sustained response. In terms of vessel biology, NO production, and ERK1/2 and FAK activation seem to be correlated with vascular homeostasis, gene expression and cytoskeletal rearrangement, respectively. In this review, we discuss the mechanisms that establish the temporal order of shear stress-stimulated responses based on a hierarchy for assembly of signal transduction molecules at the cell plasma membrane.
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PMID:Mechanotransduction in endothelial cells: temporal signaling events in response to shear stress. 922 3

Growth hormone (GH) has long been recognized as one of the principal factors that control postnatal growth. Advances made in the last 5 years have increased our understanding of the intracellular signaling mechanisms subsequent to GH binding. The earliest event in GH signaling appears to be the binding of a single GH molecule by a pair of GH receptors (GHRs). The dimerization of GHRs leads to the activation of Janus kinase 2 (JAK2), a nonreceptor tyrosine kinase that associates with the cytoplasmic domain of GHR. It is thought that all signaling downstream from GHR depends on this initial activation of JAK2. Once activated, JAK2 tyrosyl-phosphorylates both itself and the cytoplasmic domain of GHR. These phosphorylated tyrosine residues act as docking sites for various signaling molecules that contain Src homology 2 (SH-2) or other phosphotyrosyl-binding domains. The signaling molecules that are recruited and activated by the GHR-JAK2 complex include signal transducers and activators of transcription (Stat) factors, the adapter protein Shc, and the insulin receptor substrates (IRSs) 1 and 2. The recruitment and activation of these signaling intermediates leads to the activation of enzymes such as MAP kinase, phosphatidylinositol-3'-kinase, protein kinase C, and phospholipase A2 and to the release of various second messengers such as diacylglycerol, calcium, and nitric oxide. Ultimately, these pathways modulate cellular functions such as gene transcription, metabolite transport, and enzymatic activities that affect the GH-dependent control of growth and metabolism.
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PMID:Growth-hormone signal transduction. 925 27


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