EC:2.7.11.24 - FACTA Search

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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)

Nociceptin is an endogenous peptide that produces its biological effects by binding to the opioid receptor-like (ORL(1)) receptor. It has been shown that activation of ORL(1) receptor leads to inhibition of the adenylyl cyclase activity, but stimulation of the extracellular signal-regulated kinase and p38 subgroups of mitogen-activated protein kinases. In this report, we demonstrate that activation of the G protein-coupled ORL(1) receptor in transfected COS-7 cells leads to stimulation of the JNK subgroup of mitogen-activated protein kinases in a Ras/Rac-dependent manner, and it was insensitive to wortmannin. This increased JNK activity was mainly mediated by PTX-sensitive G(i) proteins, and partially contributed by a PTX-insensitive component. Among all known PTX-insensitive G proteins, G(z), G(12), G(14), and G(16) seemed to have functional coupling with the ORL(1) receptor in terms of JNK activation. Stimulation of the endogenous ORL(1) receptor in NG108-15 cells also led to activation of a PTX-sensitive JNK activity in a wortmannin-insensitive manner. The induced JNK activation is accompanied by the active phosphorylation of c-Jun and activating transcription factor-2. This is the first report that demonstrates the stimulatory effect of ORL(1) receptor on JNK, and the subsequent activation of c-Jun and activating transcription factor-2.
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PMID:Regulation of c-Jun N-terminal kinase by the ORL(1) receptor through multiple G proteins. 1108 45

Stimulation of the delta(1)-opioid receptor has been shown to trigger ischemic preconditioning (IPC). Additionally, myocardial ischemia/reperfusion induces the activation of extracellular signal-regulated kinase (ERK). Therefore, we examined the role of ERK in acute cardioprotection induced by delta(1)-opioid receptor stimulation or IPC. Infarct size (IS) was expressed as a percentage of the area at risk (AAR). Control animals had an IS/AAR of 60.6 +/- 1.8. IPC and delta(1)-opioid receptor stimulation with TAN-67 reduced IS/AAR (8.2 +/- 1.3 and 30.2 +/- 2.4). Inhibition of ERK with the selective MEK-1 antagonist, PD 098059 during IPC or TAN-67 administration significantly reduced cardioprotection (41.5 +/- 6.4 and 63.0 +/- 4.8). Western Blot analysis and subsequent densitometry corroborated these observations. Control, TAN-67-, or IPC-treated hearts were harvested after 0, 5, 15, and 30 min of ischemia or 5, 30, and 60 min of reperfusion and separated into cytosolic and nuclear fractions. Both isoforms of ERK (p44 and p42) rapidly increased to greater levels throughout reperfusion in the nuclear fraction of IPC- and opioid-treated versus control rats, however, this increase was not attenuated by PD 098059. Conversely, the rapid activation of the 44-kDa isoform of ERK after 5 min of reperfusion in the cytosolic fraction was significantly increased in IPC- and opioid-treated hearts versus control, and this increase was abolished by pretreatment with PD 098059. Additionally, p42 was activated in the cytosolic fraction of IPC-treated animals. These results suggest a key role for the 44-kDa isoform of ERK in the cytoplasm during cardioprotection induced by either IPC or stimulation of the delta(1)-opioid receptor.
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PMID:Differential activation of extracellular signal regulated kinase isoforms in preconditioning and opioid-induced cardioprotection. 1116 Jun 53

Opioids have been previously shown to confer acute and delayed cardioprotection against a prolonged ischemic insult. We have extensively characterized the signal transduction pathway mediating acute cardioprotection and have suggested a role for extracellular signal regulated kinase (ERK) in this cardioprotection. Therefore, we attempted to determine a role for ERK and the stress activated MAP kinase, p38, in opioid-induced delayed cardioprotection by using selective inhibitors of these pathways. All rats were subjected to 30 min of ischemia and 2 h of reperfusion (I/R). Control animals, injected with saline 48 h prior to I/R, had an infarct size/area at risk (IS/AAR) of 61.6 +/- 1.6.48-h pretreatment with TAN-67 (30 mg/kg), a delta1-opioid receptor agonist, maximally reduced IS/AAR (31.2 +/- 6.5). The involvement of ERK was examined with PD 098059, a selective pharmacological antagonist which inhibits the upstream kinase, MEK-1, that phosphorylates and activates ERK. PD 098059 (0.3 mg/kg) did not alter IS/AAR when administered alone (60.7 +/- 4.9). However, PD 098059 (0.3 mg/kg) administration 30 min prior to TAN-67 (30 mg/kg) completely abolished cardioprotection (61.0 +/- 7.6). The selective p38 inhibitor, SB 203580 (1.0 mg/kg), had no effect on IS/AAR in the absence of TAN-67 (53.1 +/- 2.3). Additionally, SB 203580 (1.0 mg/kg) when administered prior to TAN-67 (30 mg/kg) partially abolished cardioprotection (51.3 +/- 6.4). These results suggest that both ERK and p38 are integral components of opioid-induced delayed cardioprotection and may act via parallel pathways.
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PMID:ERK and p38 MAP kinase activation are components of opioid-induced delayed cardioprotection. 1132 31

The mu-opioid receptor (MOR) contains four highly conserved cytoplasmic tyrosine residues that may serve to regulate receptor activity. For Xenopus laevis oocytes coexpressing the rat MOR and the heteromultimeric potassium channel, K(IR)3.1/3.2, pretreatment with insulin produced both a 40% suppression in the basal channel conductance and potentiation of response to the mu-opioid agonist [D-Ala(2),methyl-Phe(4),Gly(5)-ol]enkephalin (DAMGO) to 155% of matched, untreated control cells. Insulin-induced potentiation of the DAMGO response was concentration-dependent and reversed after 1 h. Insulin pretreatment increased the maximal effect of DAMGO, but did not change its EC(50) value. Potentiation of the DAMGO response did not result from a recruitment of MOR to the cell surface, as measured by specific binding of the opioid peptide antagonist [(3)H]d-Phe((3)H)-Cys-Tyr-d-Trp-Arg-Thr-Pen-Thr-NH(2) (cyclic) to whole-oocytes, but instead the potentiation was probably caused by an increase in intrinsic efficacy of G protein coupling. The involvement of tyrosine residues on the putative intracellular loops of the MOR was demonstrated with four point-mutated receptors, replacing tyrosine with phenylalanine to create MOR(Y96F), MOR(Y106F), MOR(Y166F), and MOR(Y336F). None of these mutations significantly altered the EC(50) value for DAMGO compared with wild-type MOR, and insulin pretreatment still potentiated the effect of 1 microM DAMGO in oocytes containing either MOR(Y96F) or MOR(Y336F) to 137 +/- 10 and 124 +/- 8%, respectively. However, insulin did not significantly potentiate the DAMGO response with oocytes containing either MOR(Y106F) or MOR(Y166F), suggesting that these two sites were responsible for the insulin-induced opioid potentiation. The tyrosine-kinase inhibitors genistein (100 microM) or K-252a (20 microM) did not block the insulin-induced potentiation of the DAMGO response, but coincubation of insulin with either the MAP kinase inhibitor PD98,059 (20 microM) or phosphatase inhibitor orthovanadate (30 microM) completely blocked the potentiation. The results suggest the hypothesis that the potentiation was caused by dephosphorylation of the two tyrosines in MOR. To test this hypothesis, we measured the recovery rates after insulin treatment. As predicted, tyrosine kinase inhibition by K-252a significantly slowed the reversal and phosphatase inhibition by orthovanadate significantly accelerated the recovery. These findings support a rapid modulatory role for insulin on opioid signal transduction, possibly through the dephosphorylation of the MOR at tyrosines 106 and 166 by an insulin-activated MAP kinase/protein tyrosine phosphatase cascade. We conclude that tyrosine phosphorylation of the mu-opioid receptor regulates receptor-G protein coupling efficacy.
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PMID:Tyrosine phosphorylation of the mu-opioid receptor regulates agonist intrinsic efficacy. 1135 94

Phosphorylation of the MAPK isoform ERK by G protein-coupled receptors involves multiple signaling pathways. One of these pathways entails growth factor receptor transactivation followed by ERK activation. This study demonstrates that a similar signaling pathway is used by the mu-opioid receptor (MOR) expressed in HEK293 cells and involves calmodulin (CaM). Stimulation of MOR resulted in both epidermal growth factor receptor (EGFR) and ERK phosphorylation. Data obtained with inhibitors of EGFR Tyr kinase and membrane metalloproteases support an intermediate role of EGFR activation, involving release of endogenous membrane-bound epidermal growth factor. Previous studies had demonstrated a role for CaM in opioid signaling based on direct CaM binding to MOR. To test whether CaM contributes to EGFR transactivation and ERK phosphorylation by MOR, we compared wild-type MOR with mutant K273A MOR, which binds CaM poorly, but couples normally to G proteins. Stimulation of K273A MOR with [D-Ala(2),MePhe(4),Gly-ol(5)]enkephalin (10-100 nm) resulted in significantly reduced ERK phosphorylation. Furthermore, wild-type MOR stimulated EGFR Tyr phosphorylation 3-fold more than K273A MOR, indicating that direct CaM-MOR interaction plays a key role in the transactivation process. Inhibitors of CaM and protein kinase C also attenuated [D-Ala(2),MePhe(4),Gly-ol(5)]enkephalin-induced EGFR transactivation in wild-type (but not mutant) MOR-expressing cells. This novel pathway of EGFR transactivation may be shared by other G protein-coupled receptors shown to interact with CaM.
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PMID:mu-Opioid receptor-mediated ERK activation involves calmodulin-dependent epidermal growth factor receptor transactivation. 1145 25

Stress-activated protein kinases may be essential to cardioprotection. We assessed the role of p38 in an in vivo rat model of ischemia-reperfusion. Ischemic preconditioning (IPC) and the delta(1)-opioid receptor agonist 2-methyl-4aalpha-(3-hydroxyphenyl)-1,2,3,4,4a,5,12,12aalpha-octahydroquinolino [2,3,3-g]isoquinoline (TAN-67) significantly reduced infarct size (IS), expressed as a percentage of the area at risk (AAR), versus animals subjected only to 30 min of ischemia and 2 h of reperfusion (7.1 +/- 1.5 and 29.6 +/- 3.3 vs. 59.7 +/- 1.6%). The p38 antagonist SB-203580 attenuated IPC when it was administered before (34.0 +/- 6.9%) or after (25.0 +/- 3.8%) the IPC stimulus; however, it did not significantly attenuate TAN-67-induced cardioprotection (39.6 +/- 3.2). We also assessed the phosphorylation of p38 and c-jun NH(2)-terminal kinase (JNK) throughout ischemia-reperfusion in nuclear and cytosolic fractions. After either intervention, no increase was detected in the phosphorylation state of either enzyme in the nuclear fraction or for p38 in the cytosolic fraction versus control hearts. However, there was a robust increase in JNK activity in the cytosolic fraction immediately on reperfusion that was more pronounced in animals subjected to IPC or administered TAN-67. These data suggest that SB-203580 likely attenuates IPC via the inhibition of kinases other than p38, which may include JNK. The data also suggest that activation of JNK during early reperfusion may be an important component of cardioprotection.
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PMID:Stress-activated protein kinase phosphorylation during cardioprotection in the ischemic myocardium. 1151 86

The mu-opioid receptor stimulates the activity of extracellular signal-regulated protein kinase 1/2 (ERK1/2) in recombinant human embryonic kidney (HEK) 293 cells but this stimulatory response is abolished by prolonged opioid treatment. Chronic opioid treatment of the same cells has also been shown to induce adenylyl cyclase (AC) superactivation. This study examined the role of ERK1/2 activity in opioid-induced AC superactivation. Acute opioid treatment of HEK 293 cells expressing mu-opioid receptors resulted in the activation of ERK1/2, and this response was abolished in the presence of U0126, a MEK1/2 inhibitor. Despite a complete blockade of ERK1/2 phosphorylation, U0126 did not affect opioid-induced AC superactivation, indicating that ERK1/2 activity was not required for opioid-induced AC superactivation in HEK 293 cells.
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PMID:Role of extracellular signal-regulated kinases in opioid-induced adenylyl cyclase superactivation in human embryonic kidney 293 cells. 1172 Jul 67

Various mechanisms have been proposed for opioid receptor down regulation in different experimental preparations. The present study was aimed to test whether distinct mechanisms can mediate opioid receptor down regulation within the same cell. For this purpose we transfected HEK-293 cells with rat delta-opioid receptor (DOR). We exposed the cells to the opioid agonist etorphine in the absence or presence of various pharmacological agents and measured the binding of the opioid ligand [(3)H]diprenorphine to either isolated cell membranes or whole cells. We found that internalization of the receptors into the cell was mediated by clathrin coated pits and that the internalized receptors were degraded either in lysosomes or by proteosomes. Down regulation involved phosphorylation and at least two different kinases, a tyrosine kinase (TK) and MAPK kinase (MEK), mediated DOR down regulation in parallel routes. G-protein-coupled receptor kinase (GRK) was found to have only a minor role in DOR down regulation in HEK-293 cells. On the other hand, in N18TG2 cells that endogenously express delta-opioid receptors, GRK was the predominant kinase mediating DOR down regulation, with only a minor role for TK and MEK. We conclude that down regulation can take place via divers pathways within the same cell, and that in different cells down regulation is mediated by different mechanisms, depending on the kinase profile of the cells and the compartmentalization of the receptors within the cells.
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PMID:Divers pathways mediate delta-opioid receptor down regulation within the same cell. 1173 Oct 19

Nociceptin/orphanin FQ (N/OFQ), an endogenous ligand for opioid receptor-like (ORL1) receptor, transduces signaling cascades implicated in MAPK, PKC, PLC, and calcium, etc. This study was designed to investigate the intracellular signaling mechanism of N/OFQ in human dopaminergic neuroblastoma SH-SY5Y cells. N/OFQ rapidly induced the phosphorylation of CREB, which was significantly suppressed by pretreatment of PKA inhibitor, but not by MAPK inhibitors. It also time-dependently increased the phosphorylation of MAPK, which was proven as ERKs, whereas it did not affect the PI3K activity. Interestingly, KT5720, a specific inhibitor of PKA, markedly suppressed the phosphorylation of MAPK by N/OFQ in SH-SY5Y cells. Furthermore, BAPTA-AM, an intracellular chelator of Ca(2+), completely abolished the phosphorylation of CREB as well as MAPK in N/OFQ-treated SH-SY5Y cells. Taken together, these results suggest that N/OFQ independently induces the activation of CREB prior to MAPK phosphorylation, which was also modulated by PKA. Furthermore, Ca(2+)-related signaling implicates in the phosphorylation processes of CREB and MAPK simultaneously.
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PMID:Regulation of cyclic AMP-dependent response element-binding protein (CREB) by the nociceptin/orphanin FQ in human dopaminergic SH-SY5Y cells. 1185 41

As preferential coupling of opioid receptor to various inhibitory Galpha subunits is still under debate, we have investigated the selectivity of the human mu opioid receptor fused to a pertussis toxin insensitive C351I Gi1 alpha or C352I Gi2 alpha in stably transfected HEK 293 cells. Overall agonist binding affinities were increased for both fusion constructs when compared to the wild type receptor. [35 S]GTPgammaS binding was performed on pertussis toxin treated cells to monitor coupling efficiency of the fusion constructs. Upon agonist addition hMOR-C351I Gi1 a exhibited an activation profile similar to the non-fused receptor while hMOR-C352I Gi2 alpha was poorly activated. Interestingly no correlation could be drawn between agonist binding affinity and efficacy. Upon agonist addition, forskolin-stimulated cAMP production, as measured using a reporter gene assay, was inhibited by signals transduced via the fused Gi1 alpha and Gi2 alpha mainly. In contrast both fusion constructs were able to initiate ERK-MAPK phosphorylation via coupling to endogenous G proteins only. In conclusion our data indicate that hMOR couples more efficiently to Gi1 alpha than Gi2 alpha and that the coupling efficacy is clearly agonist-dependent.
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PMID:Agonists activate Gi1 alpha or Gi2 alpha fused to the human mu opioid receptor differently. 1206 84

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