Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.24 (mitogen-activated protein kinase)
 95,810 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We report that okadaic acid (OA), a known inhibitor of Ser/Thr phosphatases, protects pig myocardium against ischemic injury in an in vivo model and stimulates the activities of stress-activated protein kinases/c-Jun N-terminal kinases (SAPKs/JNKs). When OA was directly infused into the subsequently ischemic myocardium for 60 min before a 60-min period of coronary occlusion followed by reperfusion, infarct size was reduced from a control value of 83.4 +/- 2.8% of the risk region to 40.7 +/- 9.1%. When OA was infused for 10 min before a 5-min occlusion and during 45 min thereafter, infarct size was reduced to 26.5%. In a separate set of similar experiments, we pretreated pig hearts in vivo with the protein-synthesis inhibitor and known activator of SAPK/JNK, anisomycin (AN), and found that this compound also significantly reduced infarct size from 83.4 +/- 2.8.1% to 48.1 +/- 5.1%. For in vitro assays, OA (600 nM), AN (500 microM), or solvent (KHB) were locally infused into the left ventricular myocardium, and biopsies from in situ beating hearts were obtained after 10, 30, and 60 min of infusion. The activities of Ser/Thr phosphatases (PPases), especially PP-2A, were significantly decreased after OA infusion. OA infusion increased the activity (in-gel phosphorylation of N-terminal c-Jun1-135) of both 46- and 55-kDa SAPK/JNKs (twofold to threefold, 30 and 60 min of infusion), and this increase correlated well with the observed decrease of PPase activities. Western blot analysis with a phosphospecific SAPK/JNK (Thr 183/Tyr 185) antibody showed an increased content of the phosphorylated forms after OA treatment. We observed significant stimulation of SAPK/JNK activity also after AN treatment (threefold to fourfold, after 30 min of infusion). In contrast to the SAPK/JNKs, the infusion of both OA and AN did not significantly change the activities and phosphorylation of extracellular signal-related kinases (ERKs) and p38-MAPK. The findings that the protective effect of both OA and AN correlates with increased activity of SAPK/JNKs suggest the involvement of these enzymes in the mechanism of cardioprotection.
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PMID:Okadaic acid and anisomycin are protective and stimulate the SAPK/JNK pathway. 1044 68

We report that SB203580 (SB), a specific inhibitor of p38-MAPK, protects pig myocardium against ischemic injury in an in vivo model. SB was applied by local infusion into the subsequently ischemic myocardium for 60 min before a 60-min period of coronary occlusion followed by 60-min reperfusion (index ischemia). Infarct size was reduced from a control value of 69.3 +/- 2.7% to 36.8 +/- 3.7%. When SB was infused systemically for 10 min before index ischemia, infarct size was reduced to 36.1 +/- 5.6%. We measured the content of phosphorylated p38-MAPK after systemic infusion of SB and Krebs-Henseleit buffer (KHB; negative control) and during the subsequent ischemic period using an antibody that reacts specifically with dual-phosphorylated p38-MAPK (Thr180/ Tyr182). Ischemia with and without SB significantly increased phospho-p38-MAPK, with a maximum reached at 20 min but was less at 30 and 45 min under the influence of the inhibitor. The systemic infusion of SB for 10 min before index ischemia did not significantly change the p38-MAPK activities (compared with vehicle, studied by in-gel phosphorylation) < or =20 min of ischemia, but activities were reduced at 30 and 45 min. Measurements of p38-MAPK activities in situations in which SB was present during in-gel phosphorylation showed significant inhibition of p38-MAPK activities. The systemic infusion of SB significantly inhibited the ischemia-induced phosphorylation of nuclear activating transcription factor 2 (ATF-2). Using a specific ATF-2 antibody, we did not observe significant changes in ATF-2 abundance when nuclear fractions from untreated, KHB-, and SB-treated tissues were compared. We investigated also the effect of local and systemic infusion of SB on the cardioprotection induced by ischemic preconditioning (IP). The infusions (local or systemic) of SB before and during the IP protocol did not influence the infarct size reduction mediated by IP. The observed protection of the myocardium against ischemic damage by SB points to the negative role of the p38-MAPK pathway during ischemia.
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PMID:Inhibition of the cardiac p38-MAPK pathway by SB203580 delays ischemic cell death. 1071 Jan 35

Our aim was to test the hypothesis that cardioprotection achieved with ischemic preconditioning (PC) involves increased activity of p38 mitogen-activated protein kinase (MAPK) early during sustained coronary artery occlusion. Using the isolated buffer-perfused rabbit heart model of regional ischemia, we quantified p38 MAPK activity (pmol/min/mg protein: by biochemical assay) at 5 and 10 min into coronary occlusion in hearts that first received PC ischemia or no intervention (controls), and in non-ischemic shams. Control hearts exhibited significant increases in p38 MAPK activity, averaging 883+/-142 and 1135+/-179 at 5 and 10 min of occlusion, v 144+/-49 in shams (P<0.05 and P<0.01). p38 MAPK activity was not, however, augmented with PC; rather, at 5 min into occlusion, activity was attenuated, averaging 432+/-72 (P=N.S. v sham). This early, modest reduction in p38 MAPK activity may be physiologically relevant: in additional hearts subjected to 30 min of sustained coronary occlusion and 2 h of reperfusion, infarct size (by tetrazolium staining: expressed as a % of the risk region) was 54+/-5% in hearts treated with SB 203580 (confirmed in our study to inhibit p38 MAPK activity at 5 min into occlusion) v 70+/-5% in vehicle controls (P<0.05). Thus, cardioprotection achieved with ischemic preconditioning in rabbit heart does not involve augmentation of p38 MAPK activity early during sustained coronary occlusion.
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PMID:p38 MAPK activity is not increased early during sustained coronary artery occlusion in preconditioned versus control rabbit heart. 1127 21

Adrenomedullin (AM) has been shown to protect against cardiac remodeling. In this study, we investigated the potential role of AM in myocardial ischemia-reperfusion (I/R) injury through adenovirus-mediated gene delivery. One week after AM gene delivery, rats were subjected to 30-min coronary occlusion, followed by 2-h reperfusion. AM gene transfer significantly reduced the ratio of infarct size to ischemic area at risk and the occurrence of sustained ventricular fibrillation compared with control rats. AM gene delivery also attenuated apoptosis, assessed by both terminal deoxynucleotidyl transferase-mediated dUTP nick-end labeling assay and DNA laddering. The effect of AM gene transfer on infarct size, arrhythmia, and apoptosis was abolished by an AM antagonist, calcitonin gene-related peptide [CGRP(8-37)]. Expression of human AM significantly increased cardiac cGMP levels and reduced superoxide production, superoxide density, NAD(P)H oxidase activity, p38 MAPK activation, and Bax levels. Moreover, AM increased Akt and Bad phosphorylation and Bcl-2 levels, but decreased caspase-3 activation. These results indicate that AM protects against myocardial infarction, arrhythmia, and apoptosis in I/R injury via suppression of oxidative stress-induced Bax and p38 MAPK phosphorylation and activation of the Akt-Bad-Bcl-2 signaling pathway. Successful application of this technology may have a protective effect in coronary artery diseases.
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PMID:Adrenomedullin gene delivery attenuates myocardial infarction and apoptosis after ischemia and reperfusion. 1280 25

Acute coronary occlusion results in ischemia-mediated death of cardiomyocytes. In the days and weeks following myocardial infarction (MI), left ventricular remodeling occurs that is characterized by persistent cardiomyocyte apoptosis, thinning and fibrosis at the site of infarction, ventricular chamber dilatation, and growth of remaining viable cardiomyocytes. The p38 mitogen-activated protein kinase (MAPK) signaling cascade has been implicated in the remodeling process. In this work, mice with cardiac-specific expression of a dominant negative mutant form of p38 MAPK (DN-p38alpha) were subjected to MI by occlusion of the left coronary artery. Acute ischemia area was determined by transthoracic echocardiography 2 h after MI surgery, and was found to be nearly identical in DN-p38 mice and their wild-type littermates. Seven days after MI, mice were subjected to repeat echocardiography and histological examination of infarct size. DN-p38 mice had markedly reduced infarct size and increased ventricular systolic function 7 days after MI when compared to wild-type littermates. In addition, DN-p38 mice had less cardiomyocyte apoptosis than wild-type mice in the infarct border zone. Recently, it was discovered that Bcl-X(L) deamidation occurs in vivo, and this results in Bcl-X(L) degradation that sensitizes cells to apoptosis by enhancing BAX activity. Bcl-X(L) deamidation was found to occur in the cardiac tissue of wild-type mice after MI, but was reduced in DN-p38 mice. These results establish that p38 MAPK activity is required for pathological remodeling after MI and suggest that p38 MAPK may promote cardiomyocyte apoptosis through Bcl-X(L) deamidation.
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PMID:Role of p38alpha MAPK in cardiac apoptosis and remodeling after myocardial infarction. 1580 38

Reactive oxygen species (ROS) participate in cardioprotection of ischemic reperfusion (I/R) injury via preconditioning mechanisms. Mitochondrial ROS have been shown to play a key role in this process. Angiotensin II (Ang II) exhibits pharmacological preconditioning; however, the involvement of NAD(P)H oxidase, known as an ROS-generating enzyme responsive to Ang II stimuli, in the preconditioning process remains unclear. We compared the effects of 5-hydroxydecanoate (5-HD; an inhibitor of mitochondrial ATP-sensitive potassium channels), apocynin (an NAD(P)H oxidase inhibitor), and 4-hydroxy-2,2,6,6-tetramethyl piperidinoxyl (tempol; a membrane permeable radical scavenger) on pharmacological preconditioning by Ang II in rat cardiac I/R injury in vivo. Treatment with a pressor dose of Ang II before a 30-minute coronary occlusion reduced infarct size as determined 24 hours after reperfusion. The protective effects of Ang II were eliminated by pretreatment with 5-HD or apocynin, similar to tempol. Both 5-HD and apocynin suppressed the enhanced cardiac lipid peroxidation and activation of the apoptosis signal-regulating kinase/p38, c-Jun NH2-terminal kinase (JNK) pathways, but not the Raf/MEK/extracellular signal-regulated kinase pathway, elicited by acutely administered Ang II. Apocynin but not 5-HD suppressed Ang II-induced augmentations of the NAD(P)H oxidase complex formation (p47phox, p22phox, and Rac-1) and its activity in the heart. Finally, 5-HD suppressed superoxide production by isolated cardiac mitochondria without any effect on their respiration. These results suggest that the preconditioning effects of Ang II for cardiac I/R injury may be mediated by cardiac mitochondria-derived ROS enhanced through NAD(P)H oxidase via JNK and p38 mitogen-activated protein kinase activation.
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PMID:Role of NAD(P)H oxidase- and mitochondria-derived reactive oxygen species in cardioprotection of ischemic reperfusion injury by angiotensin II. 1583 27

The aim of this study was to examine possible interactions of ERK and calcineurin in cardioprotection afforded by delta-opioid receptor stimulation. Infarction was induced in rat hearts by 20-min coronary occlusion and reperfusion. Tissue ERK level and calcienurin activity were determined by immunoblotting and an assay using a phosphopeptide substrate, respectively. Administration of a delta-opioid receptor agonist, D-Ala2-D-Leu5-enkephalin (DADLE, 1 mg/kg), before ischemia increased the phospho-ERK levels during ischemia and reduced infarct size (as percentage of risk area, %IS/AR) from 47.7 +/- 2.3% to 23.2 +/- 2.5%. This protection was abolished by 10 mg/kg of natrindole hydrochloride (NTI), a delta-opioid receptor antagonist. PD98059, a MEK1/2 inhibitor, abolished both ERK1/2 activation and infarct size limitation by DADLE. Calcineurin inhibitors, cyclosporine-A (5 mg/kg) and FK506 (3.5 mg/kg), reduced %IS/AR (27.4 +/- 4.4% and 29.9 +/- 3.4%, respectively). The protective effects of these calcineurin inhibitors were inhibited by PD98059, and the combination of DADLE with cyclosporine-A or FK506 did not afford further cardioprotection. DADLE significantly suppressed myocardial calcineurin activity, and this effect was inhibited by NTI. Suppression of calcineurin activity by FK506 was associated with modest activation of ERK1/2. These results suggest that suppression of calcineurin and activation of ERK1/2 are interacting mechanisms involved in cardioprotection by delta-opioid receptor activation.
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PMID:Activation of ERK and suppression of calcineurin are interacting mechanisms of cardioprotection afforded by delta-opioid receptor activation. 1661 6

Acute myocardial infarction is caused by coronary occlusion, and the mainstay of treatment has become reperfusion by either coronary angioplasty with possible stenting or surgical bypass grafting. Unfortunately, reperfusion can seldom be done soon enough to prevent infarction. Thus, the search for effective cardioprotection has been ongoing for more than 3 decades. After establishment of a suitable animal model to test the efficacy of pharmacological agents and other interventions, investigators found ischemic preconditioning to be a powerful and reproducible cardioprotectant. Much of the signaling pathway from cell receptor to end-effector has now been established even if the identity of the latter has not been proven. Remarkably, the actual protection is believed to occur during reperfusion rather than during ischemia. Yet, the clinical applicability of ischemic preconditioning is limited because of the obligate need to initiate it before ischemia. However, several strategies have been developed that can be applied at the time of reperfusion and which, therefore, hold clinical promise. These interventions are thought to trigger the same signaling cascades as ischemic preconditioning, which include activation of extracellular signal-regulated kinase and phosphatidylinositol 3-kinase and also somehow prevent mitochondrial permeability transition pore formation. Ultimately, deployment of any of these strategies for clinical use must involve the pharmaceutical industry, which is becoming increasingly reluctant to be involved. Before any approach is tested in the clinical arena, however, it should be thoroughly vetted in preclinical settings. Only then can industry maximize the chances that its application in man will have the highest chance of success.
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PMID:Reducing infarct size in the setting of acute myocardial infarction. 1662 50

Sphingosine 1-phosphate (S1P) is released at sites of tissue injury and effects cellular responses through activation of G protein-coupled receptors. The role of S1P in regulating cardiomyocyte survival following in vivo myocardial ischemia-reperfusion (I/R) injury was examined by using mice in which specific S1P receptor subtypes were deleted. Mice lacking either S1P(2) or S1P(3) receptors and subjected to 1-h coronary occlusion followed by 2 h of reperfusion developed infarcts equivalent to those of wild-type (WT) mice. However, in S1P(2,3) receptor double-knockout mice, infarct size following I/R was increased by >50%. I/R leads to activation of ERK, JNK, and p38 MAP kinases; however, these responses were not diminished in S1P(2,3) receptor knockout compared with WT mice. In contrast, activation of Akt in response to I/R was markedly attenuated in S1P(2,3) receptor knockout mouse hearts. Neither S1P(2) nor S1P(3) receptor deletion alone impaired I/R-induced Akt activation, which suggests redundant signaling through these receptors and is consistent with the finding that deletion of either receptor alone did not increase I/R injury. The involvement of cardiomyocytes in S1P(2) and S1P(3) receptor mediated activation of Akt was tested by using cells from WT and S1P receptor knockout hearts. Akt was activated by S1P, and this was modestly diminished in cardiomyocytes from S1P(2) or S1P(3) receptor knockout mice and completely abolished in the S1P(2,3) receptor double-knockout myocytes. Our data demonstrate that activation of S1P(2) and S1P(3) receptors plays a significant role in protecting cardiomyocytes from I/R damage in vivo and implicate the release of S1P and receptor-mediated Akt activation in this process.
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PMID:Sphingosine 1-phosphate S1P2 and S1P3 receptor-mediated Akt activation protects against in vivo myocardial ischemia-reperfusion injury. 1729 97

Statins have been shown to be cardioprotective; however, their interaction with endogenous cardioprotection by ischemic preconditioning and postconditioning is not known. In the present study, we examined if acute and chronic administration of the 3-hydroxy-3-methylglutaryl CoA reductase inhibitor lovastatin affected the infarct size-limiting effect of ischemic preconditioning and postconditioning in rat hearts. Wistar rats were randomly assigned to the following three groups: 1) vehicle (1% methylcellulose per os for 12 days), 2) chronic lovastatin (15 mg.kg(-1).day(-1) per os for 12 days), and 3) acute lovastatin (1% methylcellulose per os for 12 days and 50 micromol/l lovastatin in the perfusate). Hearts isolated from the three groups were either subjected to a nonconditioning (aerobic perfusion followed by 30-min coronary occlusion and 120-min reperfusion, i.e., test ischemia-reperfusion), preconditioning (three intermittent periods of 5-min ischemia-reperfusion cycles before test ischemia-reperfusion), or postconditioning (six cycles of 10-s ischemia-reperfusion after test ischemia) perfusion protocol. Preconditioning and postconditioning significantly decreased infarct size in vehicle-treated hearts. However, preconditioning failed to decrease infarct size in acute lovastatin-treated hearts, but the effect of postconditioning remained unchanged. Chronic lovastatin treatment abolished postconditioning but not preconditioning; however, it decreased infarct size in the nonconditioned group. Myocardial levels of coenzyme Q9 were decreased in both acute and chronic lovastatin-treated rats. Western blot analysis revealed that both acute and chronic lovastatin treatment attenuated the phoshorylation of Akt; however, acute but not chronic lovastatin treatment increased the phosphorylation of p42 MAPK/ERK. We conclude that, although lovastatin may lead to cardioprotection, it interferes with the mechanisms of cardiac adaptation to ischemic stress.
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PMID:Lovastatin interferes with the infarct size-limiting effect of ischemic preconditioning and postconditioning in rat hearts. 1835 95


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