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)

Insulin resistance of the skeletal muscle plays a key role in the development of the metabolic endocrine syndrome and its further progression to type II diabetes. Impaired signaling from the insulin receptor to the glucose transport system and to glycogen synthase is thought to be the cause of skeletal muscle insulin resistance. An incomplete activation of the insulin receptor tyrosine kinase, which is found in type II diabetes, appears to contribute to the pathogenesis of the signaling defect. Available data suggest that the impaired tyrosine kinase function of the insulin receptor is not due to an inherited defect but rather is caused by a modulation of insulin receptor function. We used rat-1 fibroblasts and NIH-3T3 cells stably overexpressing human insulin receptor and 293 cells transiently overexpressing human insulin receptor to characterize conditions modulating the signaling function of the insulin receptor kinase. Using these cell models, we could demonstrate that activation of different protein kinase C (PKC) isoforms by high glucose levels or phorbol esters causes a rapid inhibition of the receptor tyrosine kinase activity. This effect is most likely mediated through serine phosphorylation of the receptor beta-subunit. It can be prevented by PKC inhibitors and the new oral antidiabetic agent thiazolidindione. The data suggest that PKC might be an important negative regulator of insulin receptor function. Because we have recently shown that bradykinin activates different isoforms of PKC in these cell types, an inhibitory cross talk between the bradykinin receptor and the insulin receptor through PKC activation seemed possible. However, we were unable to observe an insulin receptor tyrosine kinase inhibition through bradykinin, suggesting that different isoforms of PKC are activated by hyperglycemia and bradykinin. On the other hand, a modulation of bradykinin signals by insulin could be demonstrated in these cells. Bradykinin-induced tyrosine phosphorylation of proteins of approximately 130 and 70 kDa was inhibited by insulin treatment of rat-1 fibroblasts. These data suggest that signals from the insulin receptor modify signaling from the bradykinin receptor to tyrosine phosphorylation of different cellular proteins.
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PMID:Modulation of insulin receptor signaling. Potential mechanisms of a cross talk between bradykinin and the insulin receptor. 852 91

Short periods of ischemia render the myocardium more resistant to a subsequent prolonged coronary occlusion resulting in a reduction of infarct size. This cardioprotective mechanism has been called ischemic preconditioning. Acute myocardial ischemia results in a rapid decline of high energy phosphates. After short periods of ischemia the high energy phosphate levels are better preserved and the increase of lactate is slower during the prolonged subsequent ischemia in the preconditioned group compared to control. The duration of ischemia needed for induction of the protective effect is 2.5 min in dogs and 20 min in our swine model. In porcine myocardium the protection is lost about 1 h after induction and a renewal is not possible at that time, but is 24 h later. For rabbits or dogs, but not in pigs, a late protection 24 h after induction or preconditioning has been shown ("second window of protection"). Adenosine or adenosine A1 receptor agonists, muscarinic M2 receptor agonists, alpha 1-receptor agonists and bradykinin B2 receptor agonists as well as opening of the K+ATP-channel substitute for ischemia in the induction of protection. Activation of protein kinase C results in protection in rats and rabbits, but not in dogs or pigs. Inhibition of protein kinase C translocation or kinase activity results in a loss of the protection induced by preceding ischemia. After blockade of the K+ATP-channel the protection induced by adenosine A1 receptor activation is lost. Therefore opening of the K+ATP-channel is a prerequisite for induction of the protective effect. Inhibition of the inhibitory G-protein by pertussis toxin has been shown to result in a loss of protection, therefore the Gi-protein seems to be involved in the evolution of protection. In humans during coronary angioplasty anginal pain and lactate production during a second balloon occlusion is diminished without any change in the regional myocardial perfusion. This adaptation is inhibited by blockade of the K+ATP-channel or of the adenosine A1 receptor. Intermittent cross-clamping before a longer occlusion during open-heart surgery results in a better preservation of high energy phosphates compared to controls without preceding short ischemia. These observations support the hypothesis that ischemic preconditioning also occurs in humans. Angina pectoris preceding the myocardial infarction may have preconditioned the human heart against the subsequent myocardial infarction, but studies concerning the influence of angina pectoris on short-term outcome after thrombolysis are conflicting. In the future, ischemic preconditioning or preconditioning with drugs may prolong the duration of ischemia tolerated without necrosis and improve the prognosis of patients by reducing the infarct size.
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PMID:-Myocardial protection by preconditioning. Experimental and clinical significance-. 865 Sep 86

Bradykinin is a mediator of the protection of myocardium by angiotensin I-converting enzyme/kininase II inhibitors. We reported that the activation of B2 bradykinin receptors in neonatal rat cardiac myocytes in primary culture was followed by hydrolysis of phosphatidylinositol 4,5-bisphosphate and formation of inositol 1,4,5-trisphosphate (IP3). Here we examine the regulation of IP3 formation stimulated by bradykinin. Activation of myocytes with 1 mu/L bradykinin increased IP3 production from 117 +/- 8.3 to 1011 +/- 48.6 pmol/mg protein. Treatment of the cells with 10 mu/L indomethacin or 1 mu/L dexamethasone partially blocked this bradykinin-induced response. Moreover, either U73122, a phospholipase C inhibitor, or (p-amylcinnamoyl) anthranilic acid, a phospholipase A2 inhibitor, blunted the IP3 response to bradykinin. Because thromboxane A2 stimulates inositol bisphosphate metabolism in guinea pig atria, we also investigated the effect of the thromboxane A2 receptor antagonist BM 13177 (1 mu/L), which strongly attenuated the stimulated IP3 production. Since thromboxane A2 appears to partly mediate the IP3 response to bradykinin, we examined the effect of the stable thromboxane A2 mimetic U46619. Control cultures were stimulated more by U46619 than by bradykinin (1629 +/- 14.5 versus 1011 +/- 48.6 pmol IP3/mg protein). This property of U46619 was selectively antagonized by BM 13177. Inhibition of either phospholipase C or phospholipase A2 blunted the IP3 response to U46619. Short-term (30 minutes) activation of protein kinase C with phorbol 12-myristate 13-acetate (10 pmol/L to 1 mu/L) attenuated the IP3 accumulation in response to bradykinin; the effect of phorbol 12-myristate 13-acetate was reversed with 1 mu/L staurosporine, a protein kinase C inhibitor. Treatment with 1 microgram/mL cholera toxin or pertussis toxin for 4 hours amplified the IP3 response to 10 nmol/L bradykinin from 570 +/- 20.0 to 1150 +/- 51.3 and to 1016.7 +/- 21.9 pmol/mg protein. Bradykinin mobilized 9.4% of intracellular calcium stores in cardiomyocytes as assessed by chlortetracycline-based fluorometry, and this effect of bradykinin was blocked by BM 13177 or the B2 bradykinin receptor blocker Hoe 140 by more than 70%. In functional studies, bradykinin (1 mu/L) increased by 12% the twitch contractile force of neonatal rat ventricular strips paced at threshold intensity, but this was unaffected by BM 13177. In conclusion, in cardiomyocytes, bradykinin enhances IP3 production mostly via phospholipase A2 stimulation and thromboxane A2 formation. This prostanoid in turn stimulates its receptor and activates phospholipase C, which then splits phosphatidylinositol 4,5-bisphosphate into IP3 and diacylglycerol. The effect of bradykinin on phospholipase C, via thromboxane A2, is negatively regulated by protein kinase C activation.
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PMID:Thromboxane A2 mediates the stimulation of inositol 1,4,5-trisphosphate production and intracellular calcium mobilization by bradykinin in neonatal rat ventricular cardiomyocytes. 879 31

WI-38 and IMR90 human lung fibroblasts express B2 receptors for the peptide mediator bradykinin. These G-protein-coupled receptors which control cell growth, protein synthesis, and prostaglandin E2 (PGE2) production occur in three affinity forms, high (H, KD 440 pM), intermediate (I, KD 5.6 nM), and low (L, KD 42 nM). Utilizing specific monoclonal antireceptor antibodies which are able to distinguish among these B2 bradykinin receptor forms, we demonstrate regulated differential enhancement of their expression in fibroblasts. Activation of cellular second messenger regulatory pathways based on protein kinase C or protein kinase A drives B2 receptor affinity form expression in opposite directions, both of which are relevant to the levels of human bradykinin generation in vivo in the tissues of origin for these fibroblasts. On a spontaneous basis WI-38 human lung fibroblasts most frequently express the L form alone or the I+L forms concurrently. Activation of protein kinase C augments expression of both I and L affinity receptors within 30 min, increasing receptor number and enhancing PGE2 production. In contrast, activation of protein kinase A by 8-bromo-cAMP or forskolin enhances receptor expression and PGE2 production instead at the I to H types of affinity forms within 30 min. The effects of both kinase systems are blocked by serine/threonine (Ser/Thr) protein kinase inhibitors, indicating a role for phosphorylation at Ser or Thr residues in determining the cellular expression of bradykinin B2 receptor affinity forms. An increase in immunoprecipitable I form bradykinin receptors is detectable within 20 to 30 min after activation of either protein kinase C or protein kinase A. This time frame emphasizes the ability of human fibroblasts for rapid mobilization of B2 receptor affinity forms. Regulated expression of this repertoire of bradykinin B2 receptors at the level of receptor number and concurrent activity allows fibroblasts a sensitive means to adjust their responses to their cellular environment utilizing Ser/Thr phosphorylation events.
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PMID:Protein kinases A and C rapidly modulate expression of human lung fibroblast B2 bradykinin receptor affinity forms. 890 Apr 88

We have studied the ligand-induced phosphorylation/dephosphorylation of the bradykinin B2 receptor endogenously expressed in human HF-15 fibroblasts. An antiserum (AS346) to a synthetic peptide (CRS36), derived from the extreme carboxyl terminus of the human B2 receptor, precipitated the receptor from solubilized membranes of HF-15 cells that had been labeled with [32P]orthophosphate. A low basal level of B2 receptor phosphorylation was found in the absence of a ligand. Stimulation of the cells with the B2 receptor agonists bradykinin, [Lys0,Hyp3]bradykinin, kallidin, and T-kinin resulted in a rapid and efficient phosphorylation of the receptor. The B2 receptor antagonist HOE140 and the B1 receptor agonist des-Arg9-bradykinin failed to induce significant phosphorylation of the B2 receptor. Phosphoamino acid analysis revealed that the B2 receptor is phosphorylated on serine and threonine, but not on tyrosine residues. The ligand-induced phosphorylation of the receptor was concentration-dependent, with an apparent EC50 of 33 nM, and peaked at 1 min after challenge. The kinin-stimulated phosphorylation of the B2 receptor was rapid and transient and paralleled the kinetics of desensitization/resensitization of the receptor as followed by [Ca2+]i release and radioligand binding assay, respectively. The ligand-induced phosphorylation of the B2 receptor was independent of the protein kinase C pathway. In vitro experiments suggest betaARK1 (beta-adrenergic receptor kinase) as a candidate kinase that could mediate the homologous B2 receptor phosphorylation. Inhibitors of protein phosphatases 1 and 2A effectively blocked the dephosphorylation, but did not affect the internalization of the B2 receptor, whereas inhibitors of receptor internalization delayed its dephosphorylation. These finding point to a role of ligand-induced phosphorylation in the desensitization and redistribution of the bradykinin receptor in human fibroblasts.
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PMID:Ligand-induced phosphorylation/dephosphorylation of the endogenous bradykinin B2 receptor from human fibroblasts. 894

The aim of the study was to test if pre-ischemic treatment with bradykinin can protect against infarction in an isolated rat heart model of regional ischemia and reperfusion, and if any such protection is dependent upon activation of protein kinase C (PKC) or mediated through the nitric oxide (NO) pathway. We also investigated if bradykinin B2 receptor activation, alone or in combination with activation of adenosine receptors and alpha-adrenoceptors, are involved in the infarct size reducing effect of ischemic preconditioning. Buffer-perfused rat hearts were subjected to 30 min regional ischemia and 120 min reperfusion. Risk zone was determined by fluorescent particles and infarct size by tetrazolium staining. Treatment with bradykinin (0.5 mumol/l) prior to ischemia significantly reduced infarct size in percentage of risk zone compared to control experiments (infarct size: 9.6 +/- 1.3% v 41.8 +/- 3.6%, P < 0.001). An inhibitor of NO synthesis, NOARG (100 mumol/l), did not interfere with the bradykinin induced protection (infarct size: 13.3 +/- 2.0%), while chelerythrine (2 mumol/l), an inhibitor of protein kinase C, reversed the effect of bradykinin (infarct size: 30.0 +/- 2.8%). NOARG did not influence infarct size in the control group (infarct size: 40.1 +/- 3.2%). Ischemic preconditioning with three cycles of 5 min global ischemia + 5 min reperfusion offered protection similar to bradykinin (infarct size: 8.4 +/- 2.0%). The bradykinin antagonist HOE 140 (1 mumol/l) reversed the effect of bradykinin (infarct size: 42.5 +/- 3.1%), but did not interfere with ischemic preconditioning (infarct size: 7.7 +/- 1.6%). Similarily, combined blockade of alpha-adrenergic, adenosine and bradykinin B2 receptors with p-benzamine (10 mumol/l). SPT (100 mumol/l) and HOE 140 did not interfere with ischemic preconditioning (infarct size: 7.8 +/- 1.1%). Thus, bradykinin can protect against infarction via protein kinase C, but independently of NO. A role for bradykinin in mediating ischemic preconditioning against infarction could not be demonstrated.
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PMID:Bradykinin protects against infarction but does not mediate ischemic preconditioning in the isolated rat heart. 900 50

We previously demonstrated that histamine and bradykinin evoke an increase in intracellular Ca2+ ([Ca2+]i) in human gingival fibroblasts by using a fluorescent Ca2+ indicator Fura-2. In this paper, we further demonstrate the regulation of the histamine-induced Ca2+ mobilization by bradykinin. In fibroblasts stimulated with bradykinin (1 microM), subsequent stimulation with histamine (100 microM) failed to mobilize Ca2+, whereas bradykinin induced an increase in [Ca2+]i in the cells pre-stimulated with histamine. The attenuation of the histamine response was dependent on the concentration of bradykinin for the first stimulation. Histamine also failed to induce the formation of inositol 1,4,5-trisphosphate in fibroblasts pretreated with bradykinin. In fibroblasts pretreated with bradykinin (1 microM) for 3 min and then washed with fresh medium, the effect of histamine on [Ca2+]i quickly returned to the control level. The activation of protein kinase C by phorbol ester 12-O-tetradecanoyl-phorbol-13-acetate (PMA) elicited a marked decrease in histamine-induced Ca2+ mobilization. When the protein kinase C activity was inhibited with H7, a protein kinase C inhibitor, or was down-regulated by pretreatment with PMA for 20 h, the inhibitory effect of PMA on the histamine response was relieved. In the fibroblasts pretreated with H7 or PMA for 20 h, histamine evoked Ca2+ mobilization even after bradykinin stimulation. These results suggest that the histamine response is regulated by bradykinin receptor activation via the activation of protein kinase C in human gingival fibroblasts.
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PMID:Bradykinin regulates the histamine-induced Ca2+ mobilization via protein kinase C activation in human gingival fibroblasts. 917 46

We have reported that bradykinin induces graded contraction in guinea-pig gallbladder in vitro through activation of bradykinin B2 receptors and prostanoid release, while des-Arg9-bradykinin, a selective bradykinin B1 receptor agonist, causes only a weak contraction, suggesting the presence of badykinin B1 receptors in this tissue. In the present study, we attempted to characterise the receptor subtype and the possible mechanism by which des-Arg9-bradykinin induces contraction in this preparation. Contractions induced by des-Arg9-bradykinin in guinea-pig gallbladder (1 pM to 1 microM) increased significantly as a function of time elapsed after setting up of the preparation, reaching the maximum after 6 h of equilibration (EC50 16.4 pM and Emax 0.6 +/- 0.08 g). Des-Arg9-bradykinin-induced contraction in guinea-pig gallbladder was totally prevented by cycloheximide (70 microM, an inhibitor of protein synthesis), indomethacin (3 microM), ibuprofen (30 microM), phenidone (30 microM) or Ca2+-free medium plus EGTA, and was partially antagonised by MK 571 ((3-(3-(2-(7-chloro-2-quinolinyl) ethenyl) phenyl ((3-dimethyl amino-3-oxo-propyl) thio) methyl) propanoic acid, 0.1 microM) or by nicardipine (1 microM), but was not affected by dazoxiben (30 microM), staurosporine (100 nM) or L 655,240 (240 (3-[1-(4-clorobenzil)-5-fluoro-3-metilhyindol-2il] 2,2-dimetilpropanoic acid, 1 microM). Unexpectedly, des-Arg9-bradykinin-induced contraction was unaffected by the selective bradykinin B1 receptor antagonists, des-Arg9-[Leu8]-bradykinin and des-Arg9-NPC 17761 (des-Arg0-D-Arg [Hip3, D-HipE (transtiofenil)7, Oic8]-des-Arg9-bradykinin). However, the selective bradykinin B2 receptor antagonists, HOE 140 (D-Arg0-[Hyp3, Thi5, D-Tic7, Oic8]-bradykinin) and NPC 17731 (D-Arg0 [Hyp3, DHypE (transpropyl)7, Oic8]-bradykinin), completely blocked des-Arg9-bradykinin-mediated contraction. Pre-treatment of the animals with Escherichia coli endotoxin (lipopolysaccharide, 30 microg/animal, i.v., 24 h) did not significantly change the response to des-Arg9-bradykinin induction. It is concluded that des-Arg9-bradykinin-induced contractions in guinea-pig gallbladder are mediated primarily by the release of proinflammatory eicosanoid(s) derived from the cyclo-oxygenase pathway. These effects are unrelated to thromboxane A2 and do not seem to be coupled to activation of a protein kinase C-dependent mechanism. Response to des-Arg9-bradykinin increases as a function of the equilibration period of the preparation by a mechanism dependent on protein synthesis and seems to be mediated by activation of bradykinin B2 (but not B1) receptors. Finally, in contrast to that observed for bradykinin, the contraction induced by des-Arg9-bradykinin in guinea-pig gallbladder is fully dependent on the influx of extracellular Ca2+, partially through L-type Ca2+ channels.
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PMID:Characterization of des-Arg9-bradykinin-induced contraction in guinea-pig gallbladder in vitro. 927 27

The present study provides evidence of a novel neuronal pathway for the control of GnRH secretion involving bradykinin neurons. Bradykinin neurons were shown by immunohistochemistry to be densely localized in several regions of the brain including the cortex, hippocampus and supraoptic nucleus, as well as two regions critical in the control of GnRH secretion, the organum vasculosum of the lamina terminalis and arcuate nucleus. Bradykinin dose-dependently stimulated GnRH release from male and proestrous female rat hypothalami in vitro. Antagonist studies revealed that bradykinin effects are mediated by the bradykinin B2 receptor. The effect of bradykinin on GnRH release is not mediated by the classical major transmitter, glutamate, as glutamate antagonists had no effect on bradykinin stimulation of GnRH release. Rather, bradykinin appears to act directly on the GnRH neuron as bradykinin stimulated GnRH release directly from immortalized GnRH (GT1-7) neurons in vitro, and immunoblot studies revealed that the bradykinin B2 receptor is present in GT1-7 neurons. The bradykinin B2 receptor was also demonstrated in the rat hypothalamus and pituitary by immunoblotting. Bradykinin-induced exocytosis of GnRH appears to involve activation of the PKC signaling pathway, as a PKC inhibitor blocked bradykinin-induced GnRH release. Finally, bradykinin neurons appear to be important mediators of steroid signals in the hypothalamus to produce the LH surge, as central administration of a B2 antagonist, but not a B antagonist, significantly attenuated the steroid-induced LH surge in the ovariectomized female rat.
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PMID:Evidence for a role of bradykinin neurons in the control of gonadotropin-releasing hormone secretion. 958 90

The modulatory effect of bradykinin on electrically-induced noradrenaline release was assessed in isolated atria from normal and B2 knockout transgenic mice preincubated with [3H]noradrenaline. Concentrations of 1, 3 and 10 nM of bradykinin did not significantly alter the outflow of radioactivity whereas higher concentrations of bradykinin (30 and 100 nM) enhanced it. The facilitatory effect of 30 nM bradykinin was inhibited by a selective bradykinin B2 receptor antagonist. Hoe 140 (D-Arg-[Hyp3,Thi5,D-Tic7,Oic8]bradykinin, 30 nM), and by a protein kinase C inhibitor, bisindolylmaleimide (1 microM). The co-administration of bradykinin (1 to 100 nM) with either [Leu8]des-Arg9-bradykinin (100 nM), AcLys[DbetaNal7,Ile8]des-Arg9-bradykinin (30 nM) (bradykinin B1 receptor antagonists) or diclofenac (1 microM) (a cyclooxygenase inhibitor), shifted the facilitatory effect of bradykinin to lower concentrations. The facilitatory effect of bradykinin also was enhanced by enalaprilat (1 microM) and mergetpa (1 microM), inhibitors of angiotensin-converting enzyme (kininase II) and kininase I, respectively. In contrast, selective bradykinin B1 receptor agonists, des-Arg9-bradykinin (1 to 100 nM) and Sar[D-Phe8]des-Arg7-bradykinin (1 to 100 nM), did not significantly affect the stimulation-induced outflow of radioactivity. Neither bradykinin (100 nM) nor des-Arg9-bradykinin (100 nM) had any modulatory effect in B2 knockout transgenic mice. These findings suggest that the facilitatory effect of bradykinin on noradrenaline release in the mouse atria is mediated exclusively by presynaptic bradykinin B2 receptors which are linked to protein kinase C. The greater release of noradrenaline with bradykinin under inhibition of prostaglandins production and kininases I and II activity might be of importance in pharmacotherapies.
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PMID:Modulatory effect of bradykinin on noradrenaline release in isolated atria from normal and B2 knockout transgenic mice. 965 56

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