Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P51812 (mitogen-activated protein)
 10,636 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The c-Jun N-terminal protein kinases (JNKs), also called stress-activated protein kinases, are members of the growing family of serine/threonine kinases in the mitogen-activated protein (MAP) kinase superfamily. Like other MAP kinases, JNKs are activated via phosphorylation on adjacent threonine and tyrosine residues and can be inactivated by a unique family of dual specificity phosphatases, called MAP kinase phosphatases (MKPs). MKPs are encoded by immediate early genes and induced in response to environmental stressors and growth factor stimulation. Two prevalent isoforms of MKP, MKP1 and MKP2, are co-expressed in a wide variety of cell types. In this study, we examined the actions of MKP1 and MKP2 on JNK1 and JNK2. JNK1 phosphorylation and activation was inhibited by expression of both MKP1 and MKP2, although MKP1 selectivity toward JNK1 appeared significantly higher than that of MKP2. In contrast, JNK2 activity was inhibited by either phosphatase to similar degrees. Both MKP1 and MKP2 were highly effective at blocking the activation of the physiological target of JNK activation, the transcription factor c-Jun. In PC12 cells, MKP1 and MKP2 are transcriptionally induced following stimulation by nerve growth factor. In these cells, UV light-evoked JNK activation was reduced by pretreatment with nerve growth factor. Therefore, JNKs may be selective targets of MKP action in certain cells.
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PMID:Mitogen-activated protein kinase phosphatases inactivate stress-activated protein kinase pathways in vivo. 902 Jan 84

KFR1, a mitogen-activated protein (MAP) kinase identified in the African trypanosome, Trypanosoma brucei, is a serine protein kinase capable of phosphorylating the serine residues in histone H-1, myelin basic protein, and beta-casein. It phosphorylates four proteins with estimated molecular masses of 22, 34, 46, and 90 kDa from the T. brucei bloodstream-form lysate in vitro. KFR1 bears significant sequence similarity to the yeast MAP kinases KSS1 and FUS3 but cannot functionally complement the kss1/fus3 yeast mutant. It is encoded by a single-copy gene in the diploid T. brucei, and only one of the two alleles can be successfully disrupted, suggesting an essential function of KFR1 in T. brucei. KFR1 activity is present at a much enhanced level in the bloodstream form of T. brucei when compared with that in the insect (procyclic) form. This enhanced activity can be eliminated in vitro by the treatment with protein phosphatase HVH2 known to act specifically on MAP kinases. It can also be decreased in the bloodstream form of T. brucei by serum starvation but induced specifically by interferon-gamma. The production of interferon-gamma in the mammalian host is known to be triggered by T. brucei infection, and this cytokine, as has been reported, promotes the proliferation of T. brucei in the mammalian blood. Since none of these phenomena can be observed in the procyclic form of T. brucei, activation of KFR1 is most likely involved in mediating the interferon-gamma-induced proliferation of T. brucei in the mammalian host.
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PMID:Interferon-gamma activation of a mitogen-activated protein kinase, KFR1, in the bloodstream form of Trypanosoma brucei. 909 33

We have investigated the cellular mechanisms by which changes in intracellular calcium (Ca2+) can differentially regulate gene expression. Two Ca2+ paradigms, involving prolonged and transient Ca2+ increases, were used. As a starting point, we studied the slow, prolonged elevation of Ca2+ caused by activation of 5-HT1 receptors. We had previously shown that 5-HT1 agonists inhibit calcitonin gene-related peptide (CGRP) transcription and secretion. The Ca2+ ionophore, ionomycin, was used to produce a prolonged elevation of the Ca2+ signal similar to that generated by 5-HT1 receptor agonists. Ionomycin treatment of the neuronal-like CA77 cell line specifically inhibited mitogen-activated protein (MAP) kinase stimulation of the CGRP enhancer and two synthetic MAP kinase-responsive reporter genes (4- to 10-fold). We then showed that ionomycin repression of promoter activity involved selective induction of MAP kinase phosphatase-1 (MKP-1), but not MKP-2, and that overexpression of MKP-1 was sufficient to repress CGRP enhancer activity. These effects were then compared with a Ca2+ paradigm involving a transient elevation in Ca2+ as seen after depolarization. At 4 h after the transient increase in Ca2+, the CGRP enhancer and synthetic MAP kinase-responsive reporter genes were stimulated. In contrast, exposure to depolarizing stimuli overnight caused only a less than 2-fold inhibition of promoter activity. We propose that the duration of the Ca2+ signal can determine the magnitude of a negative feedback loop that leads to differential regulation of MAP kinase-responsive genes.
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PMID:Differential regulation of mitogen-activated protein kinase-responsive genes by the duration of a calcium signal. 1104 73

Activating mutations within the K-ras gene occur in a high percentage of human pancreatic carcinomas. We reported previously that the presence of oncogenic, activated K-ras in human pancreatic carcinoma cell lines did not result in constitutive activation of the extracellular signal-regulated kinases (ERK1 and ERK2). In the present study, we further characterized the ERK signaling pathway in pancreatic tumor cell lines in order to determine whether the ERK pathway is subject to a compensatory downregulation. We found that the attenuation of serum-induced ERK activation was not due to a delay in the kinetics of ERK phosphorylation. Treatment with the tyrosine phosphatase inhibitor orthovanadate increased the level of ERK phosphorylation, implicating a vanadate-sensitive tyrosine phosphatase in the negative regulation of ERK. Furthermore, expression of a dual specificity phosphatase capable of inactivating ERK known as mitogen-activated protein (MAP) kinase phosphatase-2 (MKP-2) was elevated in most of the pancreatic tumor cell lines and correlated with the presence of active MAP kinase kinase (MEK). Taken together, these results suggest that pancreatic tumor cells expressing oncogenic K-ras compensate, in part, by upregulating the expression of MKP-2 to repress the ERK signaling pathway.
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PMID:Pancreatic tumor cells with mutant K-ras suppress ERK activity by MEK-dependent induction of MAP kinase phosphatase-2. 1116 24

The extracellular regulated kinases (ERK) 1 and ERK2 are members of mitogen-activated protein (MAP) kinase family that play an important role in transducing extracellular signals to the nucleus and have been implicated in a broad spectrum of biological responses. To test the hypothesis that MAP kinases may be involved in depression, we examined the activation of p44/42 MAP kinase and expression of ERK1 and ERK2 in the post-mortem brain tissue obtained from non-psychiatric control subjects (n = 11) and age- and the post-mortem interval-matched depressed suicide subjects (n = 11). We observed that p44/42 MAP kinase activity was significantly decreased in the prefrontal cortical areas (Brodmann's areas 8, 9 and 10) and the hippocampus of depressed suicide subjects without any change in the cerebellum. This decrease was associated with a decrease in mRNA and protein levels of ERK1 and ERK2. In addition, the expression of MAP kinase phosphatase (MKP)2, a 'dual function' ERK1/2 phosphatase, was increased in the prefrontal cortex and hippocampus. These studies suggest that p44/42 MAP kinases are less activated in the post-mortem brain of depressed suicide subjects and this may be because of reduced expression of ERK1/2 and increased expression of MKP2. Given the role of MAP kinases in various physiological functions and gene expression, alterations in p44/42 MAP kinase activation and expression of ERK1/2 may contribute significantly to the pathophysiology of depressive disorders.
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PMID:Reduced activation and expression of ERK1/2 MAP kinase in the post-mortem brain of depressed suicide subjects. 1133 20

MKP-2 is a member of the mitogen-activated protein (MAP) kinase phosphatase family which has been suggested to play an important role in the feedback control of MAP kinase-mediated gene expression. Although MKP-2 preferentially inactivates extracellular signal-regulated kinase (ERK) and c-Jun NH(2)-terminal kinase (JNK) MAP kinase subfamilies, the mechanisms underlying its own regulation remain unclear. In this report, we have examined the MKP-2 interaction with and catalytic activation by distinct MAP kinase subfamilies. We found that the catalytic activity of MKP-2 was enhanced dramatically by ERK and JNK but was affected only minimally by p38. By contrast, p38 and ERK bound MKP-2 with comparably strong affinities, whereas JNK and MKP-2 interacted very weakly. Through site-directed mutagenesis, we defined the ERK/p38-binding site as a cluster of arginine residues in the NH(2)-terminal domain of MKP-2. Mutation of the basic motif abrogated its interaction with both ERK and p38 and severely compromised the catalytic activation of MKP-2 by these kinases. Unexpectedly, such mutations had little effect on JNK-triggered catalytic activation. Both in vitro and in vivo, wild type MKP-2 effectively inactivated ERK2 whereas MKP-2 mutants incapable of binding to ERK/p38 did not. Finally, in addition to its role as a docking site for ERK and p38, the MKP-2 basic motif plays a role in regulating its nuclear localization. Our studies provided a mechanistic explanation for the substrate preference of MKP-2 and suggest that catalytic activation of MKP-2 upon binding to its substrates is crucial for its function.
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PMID:Discordance between the binding affinity of mitogen-activated protein kinase subfamily members for MAP kinase phosphatase-2 and their ability to activate the phosphatase catalytically. 1138 37

The mitogen-activated protein (MAP) kinase cascades regulate a variety of cellular activities, including cell growth, proliferation, and apoptosis, and are reported to play a role in the actions of antidepressant treatment. There are a number of different classes of protein phosphatases that could influence the MAP kinase cascade. One of these, the MAP kinase phosphatase (MKP) family, is known to play a key role in dephosphorylation of activated MAP kinase. In the present study, we analyzed the expression of the MKP1, MKP2, and MKP3 isoforms in rat brain after electroconvulsive seizure (ECS), considered the most effective treatment for depression. In situ hybridization analysis demonstrates that ECS differentially regulates the expression of the MKP isoforms. Expression of MKP1 mRNA is robustly increased by acute ECS in the major cell layers of the hippocampus, including the dentate gyrus granule cell layer and the CA1 and CA3 pyramidal cell layers. In contrast, MKP2 is induced mainly in the dentate gyrus and MKP3 is preferentially increased in the CA1 and CA3 cell layers. In the prefrontal cortex, all three MKP isoforms are upregulated by acute ECS administration. Chronic ECS resulted in a similar pattern of induction for each of the MKP subtypes, demonstrating that there is little or no desensitization of the response to repeated ECS. The induction of MKP expression serves as negative feedback control for the MAP kinase cascades. Upregulation of MKP expression could dampen the actions of ECS, indicating that blockade of the MKPs could enhance the actions of antidepressant treatment.
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PMID:Electroconvulsive seizures increase the expression of MAP kinase phosphatases in limbic regions of rat brain. 1549 35

The mitogen-activated protein (MAP) kinase signaling pathways help to mediate the hypertrophic response of the pressure-loaded adult heart, although their importance in fetal myocardium is less known. The goal of this study was to determine the role the MAP kinase signaling pathways play in regulating the response of the fetal heart to a pressure load. Aortic (Ao) and pulmonary artery (PA) bands were placed in 132-day fetal sheep for 7 days. Protein levels of the total and active (phosphorylated) terminal MAP kinases extracellular signal-regulated kinase (ERK/P-ERK), c-Jun NH(2)-terminal kinase (JNK/P-JNK), and p38/P-p38 and the MAP kinase phosphatases MKP-1, MKP-2, and MKP-3 were made in the right and left ventricular (RV and LV) free walls. In both Ao- and PA-banded animals, total heart weight normalized to body weight was significantly increased, largely due to an increase in RV free wall mass in the Ao-banded animals and an increase in septal mass in the PA-banded fetuses. Total protein levels of the three terminal kinases and of P-ERK and P-JNK remained stable in both groups of banded animals. However, P-p38 was significantly increased in RV and LV of Ao- and PA-banded fetuses. Whereas MKP-1 and MKP-2 protein levels were unchanged following Ao- and PA-banding, MKP-3 protein levels were significantly increased in the RV of the PA-banded animals. These findings indicate that the MAP kinase signaling pathways are active in the fetal heart and help to modulate the response of prenatal myocardium to a pressure load.
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PMID:Mitogen-activated protein kinase activation and regulation in the pressure-loaded fetal ovine heart. 1629 65

Despite the understanding of the importance of mitogen-activated protein (MAP) kinase activation in the stimulation of growth, little is known about the role of MAP kinase regulation during contact inhibited growth control. To investigate the role of the MAP kinase extracellular signal-regulated kinase (ERK) during the transition to a contact inhibited state, cultures of normal fibroblasts (BJ) were grown to different stages of confluency. The levels of MAP kinase phosphatase (MKP) expression and the amount of active ERK and MAP ERK kinase (MEK) in these cultures were assessed through western blot analysis and were compared to fibrosarcoma cell cultures (HT-1080), which lack contact inhibition. In normal fibroblasts, the amounts of active MEK and ERK decline at contact inhibition, concurrently with a rise in MKP-1, MKP-2, and MKP-3 protein levels. In contrast, fibrosarcoma cells appear to lack density-dependent regulation of the ERK pathway. Additionally, altering the redox environment of fibrosarcoma cells to a less reducing state, as seen during contact inhibition, results in increased MKP-1 expression. Taken together, these results suggest that the altered redox environment upon contact inhibition may contribute to the regulation of ERK inactivation by MKPs.
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PMID:ERK regulation upon contact inhibition in fibroblasts. 1646 68

Elevated nitric oxide (NO) and proton levels in synovial fluid are implicated in joint pathology. However, signaling pathways stimulated by these molecules that mediate inflammation and pain in the temporomandibular joint (TMJ) have not been investigated. The goal of this study was to determine the effect of NO-proton stimulation of rat trigeminal neurons on the in vivo expression of mitogen-activated protein kinases (MAPKs) and phosphatases (MKPs) in trigeminal ganglion neurons and satellite glial cells. Low levels of the active MAPKs extracellular signal-regulated kinase (ERK), Jun amino-terminal kinase (JNK), and p38 were localized in the cytosol of neurons and satellite glial cells in unstimulated animals. However, increased levels of active ERK and p38, but not JNK, were detected in the cytosol and nucleus of V3 neurons and satellite glial cells 15 min and 2 h following bilateral TMJ injections of an NO donor diluted in pH 5.5 medium. While ERK levels returned to near basal levels 24 h after stimulation, p38 levels remained significantly elevated. In contrast to MKP-2 and MKP-3 levels that were barely detectable in neurons or satellite glial cells, MKP-1 staining was readily observed in satellite glial cells in ganglia from unstimulated animals. However, neuronal and satellite glial cell staining for MKP-1, MKP-2, and MKP-3 was significantly increased in response to NO-protons. Increased active ERK and p38 levels as well as elevated MKP levels were also detected in neurons and satellite glial cells located in V2 and V1 regions of the ganglion. Our data provide evidence that NO-proton stimulation of V3 neurons results in temporal and spatial changes in expression of active ERK and p38 and MKPs in all regions of the ganglion. We propose that in trigeminal ganglia these cellular events, which are involved in peripheral sensitization as well as control of inflammatory and nociceptive responses, may play a role in TMJ pathology.
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PMID:Nitric oxide-proton stimulation of trigeminal ganglion neurons increases mitogen-activated protein kinase and phosphatase expression in neurons and satellite glial cells. 1893 28


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