EC:2.7.11.13 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.13 (protein kinase C)
49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The possible involvement of different kinases in the alpha(1)-adrenoreceptor (AR)-mediated positive inotropic effect (PIE) was investigated in rat papillary muscle and compared with beta-AR-, endothelin receptor- and phorbol ester-induced changes in contractility. The alpha(1)-AR-induced PIE was not reduced by the inhibitors of protein kinase C (PKC), MAPK (ERK and p38), phosphatidyl inositol 3-kinase, or calmodulin kinase II. However, PKC inhibition attenuated the effect of phorbol 12-myristate 13-acetate (PMA) on contractility. alpha(1)-AR-induced PIE was reduced by approximately 90% during inhibition of myosin light chain kinase (MLCK) by 1-(5-chloronaphthalene-1-sulfonyl)1H-hexahydro-1,4-diazepine (ML-9). Endothelin-induced PIE was also reduced by ML-9, but ML-9 had no effect on beta-AR-induced PIE. The Rho kinase inhibitor Y-27632 also reduced the alpha(1)-AR-induced PIE. The alpha(1)-AR-induced PIE in muscle strips from explanted failing human hearts was also sensitive to MLCK inhibition. alpha(1)-AR induced a modest increase in (32)P incorporation into myosin light chain in isolated rat cardiomyocytes. This effect was eliminated by ML-9. The PIE of alpha(1)-AR stimulation seems to be dependent on MLCK phosphorylation.
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PMID:Alpha(1)-AR-induced positive inotropic response in heart is dependent on myosin light chain phosphorylation. 1223 99

Human endothelial cells cultured under high glucose (HG) conditions were shown before to upregulate several basement membrane proteins, including fibronectin (FN), thus mimicking effects of diabetes. Using human macrovascular (HUVEC) and microvascular (HMEC) endothelial cell lines, we evaluated in the present study some of the key molecular signaling events involved in HG-induced FN overexpression. This expression was shown to be dependent on endogenous endothelin (ET) receptor-mediated signaling. We also examined the roles played by protein kinase C (PKC) and the transcription factors nuclear factor kappaB (NF-kappaB) and activating protein (AP)-1 with respect to such changes. HG, PKC activators, and ETs (ET-1 and ET-3) that increased FN expression also caused activation of NF-kappaB and AP-1. Inhibitors of both NF-kappaB and AP-1 prevented HG- and ET-induced FN production. ET receptor blockade also prevented these HG- and ET-mediated changes. The results of this study indicate that glucose-induced increased FN production in diabetes may be mediated via ET-dependent NF-kappaB and AP-1 activation.
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PMID:High glucose-induced, endothelin-dependent fibronectin synthesis is mediated via NF-kappa B and AP-1. 1238 7

Transient and sustained K(+) currents were measured in isolated rat ventricular myocytes obtained from control, steptozotocin-induced (Type 1) diabetic, and hypothyroid rats. Both currents, attenuated by the endocrine abnormalities, were significantly augmented by in vitro incubation (>6 h) with the angiotensin-converting enzyme inhibitor quinapril or the angiotensin II (ANG II) receptor blocker saralasin. Western blots indicated a parallel increase in Kv4.2 and Kv1.2, channel proteins that underlie the transient and (part of the) sustained currents. Under diabetic and hypothyroid conditions, both currents were also augmented by an endothelin receptor blocker (PD142893) or by an endothelin-converting enzyme inhibitor. Kv4.2 density was also enhanced by PD142893. Incubation (>5 h) with the PKC inhibitor bis-indolylmaleimide augmented both currents, whereas the PKC activator dioctanoyl-rac-glycerol (DiC8) prevented the augmentation of currents by quinapril. DiC8 also prevented the augmentation of Kv4.2 density by quinapril. Specific peptides that activate PKC translocation indicated that PKC-epsilon and not PKC-delta is involved in ANG II action on these currents. In control myocytes, quinapril and PD142893 augmented the sustained late current but had no effect on peak current. It is concluded that an autocrine release of angiotensin and endothelin in diabetic and hypothyroid conditions attenuates K(+) currents by suppressing the synthesis of some K(+) channel proteins, with the effects mediated at least partially by PKC-epsilon.
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PMID:Role of PKC in autocrine regulation of rat ventricular K+ currents by angiotensin and endothelin. 1262 28

The effects of endothelin on the transient outward K(+) currents were compared between Kv1.4 and Kv4.3 channels in Xenopus oocytes expression system. Both transient outward K(+) currents were decreased by stimulation of endothelin receptor ET(A) coexpressed with the K(+) channels. Transient outward current of Kv1.4 was decreased by about 85% after 10(-8) M ET-1, while that of Kv4.3 was decreased by about 60%. By mutagenesis experiments we identified two phosphorylation sites of PKC and CaMKII in Kv1.4 responsible for the decrease in I(to) by ET-1. In Kv4.3 a PKC phosphorylation site was identified which is in part responsible for the decrease in I(to). Differences in the suppression of I(to) could be ascribed to the difference in intracellular signaling including the number of phosphorylation sites. These findings might give clues for the understanding of molecular mechanism of ventricular arrhythmias in heart failure, in which endothelin is involved in the pathogenesis.
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PMID:Differential inhibition of transient outward currents of Kv1.4 and Kv4.3 by endothelin. 1452 58

The heterologous expression system will provide clues for understanding the basic mechanism of arrhythmogenicity in both inherited and acquired long QT syndrome, which are reviewed here, with emphasis on the K+ channels. Endothelin is implicated in the morphological and electrical remodeling of cardiac muscles in heart failure. The effects of endothelin on the transient outward K+ currents (Ito) were compared between Kv1.4 (rich in endocardial muscle) and Kv4.3 (rich in epicardial muscle) channels in the Xenopus oocytes expression system. Both Itos were decreased by stimulation of endothelin receptor ETA coexpressed with the K+ channels. Ito of Kv1.4 was decreased by about 85% after 10(-8) M ET-1, whereas that of Kv4.3 was decreased by about 60%. By mutagenesis experiments, we identified two phosphorylation sites of PKC and CaMKII in Kv1.4 responsible for the decrease in Ito by ET-1. In Kv4.3 we identified a PKC phosphorylation site that is partly responsible for the decrease. Differences in the suppression of Ito could be due to the differences in intracellular signaling including the number of phosphorylation sites. These findings show some of the molecular mechanisms of ventricular arrhythmias in heart failure, resulting in dispersion and prolongation of action potential which elicit reentry and after depolarization.
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PMID:[Basic arrhythmogenic mechanisms in both inherited and acquired long QT syndrome]. 1456 55

Based upon the existence of high density of ET-receptors on catecholaminergic neurons of the hypothalamus, we studied the effects of endothelin-1 (ET-1) and endothelin-3 (ET-3) on neuronal norepinephrine (NE) release in the rat posterior hypothalamus. The intracellular pathways and receptors involved were also investigated. Neuronal NE release was enhanced by ET-1 and ET-3 (10 etaM). The selective antagonists of subtype A and B ET receptors (ETA, ETB) (100 etaM BQ-610 and 100 etaM BQ-788, respectively) abolished the increase induced by ET-1 but not by ET-3. The PLC inhibitor, U73122 (10 microM), abolished ET-1 and ET-3 response. GF-109203X (100 etaM) (PKC inhibitor) blocked the increase in NE release produced by ET-3 and partially blocked ET-1 response. The inositol 1,4,5-trisphosphate-induced calcium release inhibitor, 42 microM 2-APB, inhibited the stimulatory effect induced by ET-3 but not by ET-1. The PKA inhibitor, 500 etaM H-89, blocked the increase in neuronal NE release evoked by ET-1 but not by ET-3. Our results showed that ET-1 as well as ET-3 displayed an excitatory neuromodulatory effect on neuronal NE release in the rat posterior hypothalamus. ET-1 through an atypical ETA or ETB receptor activated the PLC/PKC signalling pathway as well as the cAMP pathway, whereas ET-3 through a non-ETA/non-ETB receptor activated the phosphoinositide pathway. Both ETs would enhance the sympathoexcitatory response elicited by the posterior hypothalamus and thus participate in cardiovascular regulation.
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PMID:Modulatory effect of endothelin-1 and -3 on neuronal norepinephrine release in the rat posterior hypothalamus. 1475 57

We have previously reported that endothelin 1 and 3 (ET-1, ET-3) through the ETB receptor decrease norepinephrine release in the anterior hypothalamus and activate the nitric oxide (NO) pathway. In the present work we sought to establish the receptors and intracellular mechanisms underlying the increase in nitric oxide synthase (NOS) activity stimulated by ET-1 and ET-3 in the rat anterior hypothalamus. Results showed that ETs-stimulated NOS activity was inhibited by a selective ETB antagonist (BQ-788), but not by a selective ETA antagonist (BQ-610). In addition, NOS activity was not altered in the presence of an ETA agonist (sarafotoxin 6b), but it was enhanced in the presence of a ETB agonist (IRL-1620). Both Nomega-nitro-L-arginine methyl ester (NOS inhibitor), and 7-nitroindazole (neuronal NOS inhibitor) diminished ETs-stimulated NOS activity. The stimulatory effect of ETs on NOS activity was inhibited in the presence of PLC, PKC, PKA and CaMK-II inhibitors (U-73122, GF-109203X, H-89 and KN-62, respectively), and the IP3 receptor selective antagonist, 2-APB. Our results showed that both ET-1 and ET-3 modulate neuronal NOS activity through the ETB receptor in the rat anterior hypothalamus involving the participation of the PLC-PKC/IP3 pathway as well as PKA and CaMK-II.
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PMID:Endothelin 1 and 3 enhance neuronal nitric oxide synthase activity through ETB receptors involving multiple signaling pathways in the rat anterior hypothalamus. 1524 72

We have previously demonstrated that endothelin-1 (ET-1)-induced extracellular signal-regulated kinase (Erk) activity via the ETB receptor (EDNRB) is mediated through two independent pathways, a protein kinase C-dependent pathway and a pertussis toxin (PTX)-sensitive pathway, in astrocytes. In this study, we showed that the molar potency of ET-1 to induce Erk activation was two orders of magnitude higher in dibutyryl cAMP (DBcAMP)-treated astrocytes than in quiescent astrocytes. This DBcAMP-enhanced molar potency of ET-1 in Erk activation was selectively inhibited by pretreatment of astrocytes with PTX. The expression level of EDNRB in astrocytes was markedly upregulated by DBcAMP-induced cytodifferentiation. However, this up-regulation was simply attributed to the high expression of low-affinity sites. The molar potency of ET-1 to induce both stimulation of inositol trisphosphate production and activation of protein kinase C in DBcAMP-treated astrocytes was similar to that in quiescent astrocytes. On the contrary, the molar potency of ET-1 to induce accumulation of Ras-GTP was two orders of magnitude higher in DBcAMP-treated astrocytes than in quiescent astrocytes, which was consistent with the case of ET-1-induced Erk activation. Moreover, the ET-1-induced Ras activation was PTX sensitive. These results suggest that cytodifferentiation selectively enhances the PTXsensitive Ras/Erk pathway induced by ET-1 in astrocytes, and that cytodifferentiation-induced EDNRB up-regulation might not contribute to this selective potentiation of ET-1 signaling.
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PMID:Cytodifferentiation enhances Erk activation induced by endothelin-1 in primary cultured astrocytes. 1583 8

Since both endothelin-1 (ET-1) and aldosterone have been shown to induce expression of several pro-inflammatory genes, including cyclooxygenase-2 (COX-2), in the vasculature as a cardiovascular risk hormone, the present study was undertaken to examine the effects of ET-1 and aldosterone on COX-2 gene expression as measured by a real-time reverse transcriptase-polymerase chain reaction in aortic endothelial cells. Treatment with ET-1(10 M) markedly upregulated COX-2 mRNA levels in rat endothelial cells, whereas aldosterone (10 M) did not show any effect. The ET-1-induced COX-2 upregulation was inhibited by pretreatment with a non-selective endothelin receptor antagonist (TAK044), a protein kinase C inhibitor (GF109203X), and a MEK inhibitor (PD98059). Furthermore, ET-1 increased intracellular reactive oxygen species generation as estimated by the measurement of dichlorofluorescein fluorescence, whose effect was blocked by a COX-2 inhibitor (NS398). Our data show that ET-1 induces COX-2 upregulation in rat endothelial cells via a protein kinase C-dependent and extracellular signal-regulated kinase-dependent pathway, which may largely contribute to the generation of intracellular reactive oxygen species.
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PMID:Endothelin-1 induces cyclooxygenase-2 expression and generation of reactive oxygen species in endothelial cells. 1583 13

Acute lung injury is a syndrome of inflammation and of increased permeability of the blood-gas barrier. Endothelins are thought to exert proinflammatory effects. Kuklin and colleagues show that the endothelin receptor antagonist tezosentan reduces pulmonary edema in endotoxemic sheep, in parallel with a prevention of protein kinase C-alpha activation. In turn, the level of some cytokines increased after tezosentan treatment. Whether these contrasting effects of endothelin blockade on inflammatory mechanisms have clinical relevance and whether these agents might benefit patients with acute lung injury is unknown.
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PMID:Endothelin antagonists: new bullets against lung injury? 1598 92

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