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

We have used the patch clamp technique to study volume-activated Cl- currents in the bicarbonate-secreting pancreatic duct cell. These currents could be elicited by a hypertonic pipette solution (osmotic gradient 20 mOsm/l), developed over about 8 min to a peak value of 91 +/- 5.8 pA/pF at 60 mV (n = 123), and were inhibited by a hypertonic bath solution. The proportion of cells which developed currents increased from 15% in freshly isolated ducts to 93% if the ducts were cultured for 2 days. The currents were ATP-dependent, had an outwardly rectifying current/voltage (I-V) plot, and displayed time-dependent inactivation at depolarizing potentials. The anion selectivity sequence was: ClO4 = I = SCN > Br = NO3 > Cl > F > HCO3 > gluconate, and the currents were inhibited to a variable extent by DIDS, NPPB, dideoxyforskolin, tamoxifen, verapamil and quinine. Increasing the intracellular Ca2+ buffering capacity, or lowering the extracellular Ca2+ concentration, reduced the proportion of duct cells which developed currents. However, removal of extracellular Ca2+ once the currents had developed was without effect. Inhibiting protein kinase C (PKC) with either the pseudosubstrate PKC (19-36), calphostin C or staurosporine completely blocked development of the currents. We speculate that cell swelling causes Ca2+ influx which activates PKC which in turn either phosphorylates the Cl- channel or a regulatory protein leading to channel activation.
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PMID:Volume-activated chloride currents in pancreatic duct cells. 856 53

A Ca(2+)-activated Cl- conductance in rat submandibular acinar cells was identified and characterized using whole-cell patch-clamp technique. When the cells were dialyzed with Cs-glutamate-rich pipette solutions containing 2 mM ATP and 1 microM free Ca2+ and bathed in N-methyl-D-glucamine chloride (NMDG-Cl) or Choline-Cl-rich solutions, they mainly exhibited slowly activating currents. Dialysis of the cells with pipette solutions containing 300 nM or less than 1 nM free Ca2+ strongly reduced the Cl- currents, indicating the currents were Ca(2+)-dependent. Relaxation analysis of the "on" currents of slowly activating currents suggested that the channels were voltage-dependent. The anion permeability sequence of the Cl- channels was: NO3- (2.00) > I- (1.85) > or = Br- (1.69) > Cl- (1.00) > bicarbonate (0.77) > or = acetate (0.70) > propionate (0.41) > > glutamate (0.09). When the ATP concentration in the pipette solutions was increased from 0 to 10 mM, the Ca(2+)-dependency of the Cl- current amplitude shifted to lower free Ca2+ concentrations by about two orders of magnitude. Cells dialyzed with a pipette solution (pCa = 6) containing ATP-gamma S (2 mM) exhibited currents of similar magnitude to those observed with the solution containing ATP (2 mM). The addition of the calmodulin inhibitors trifluoperazine (100 microM) or calmidazolium (25 microM) to the bath solution and the inclusion of KN-62 (1 microM), a specific inhibitor of calmodulin kinase, or staurosporin (10 nM), an inhibitor of protein kinase C to the pipette solution had little, if any, effect on the Ca(2+)-activated Cl- currents. This suggests that Ca2+/Calmodulin or calmodulin kinase II and protein kinase C are not involved in Ca(2+)-activated Cl- currents. The outward Cl- currents at +69 mV were inhibited by NPPB (100 microM), IAA-94 (100 microM), DIDS (0.03-1 mM), 9-AC (300 microM and 1 mM) and DPC (1 mM), whereas the inward currents at -101 mV were not. These results demonstrate the presence of a bicarbonate- and weak acid-permeable Cl- conductance controlled by cytosolic Ca2+ and ATP levels in rat submandibular acinar cells.
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PMID:A bicarbonate- and weak acid-permeable chloride conductance controlled by cytosolic Ca2+ and ATP in rat submandibular acinar cells. 870 4

Endothelin (ET) is a potent vasoconstrictor peptide that induces characteristically long-lasting contractions. We used both intact and endothelium-denuded rat aortic rings to investigate the role of protein kinase C (PKC) in ET-induced contractions. ET (10(-9) M) and phorbol 12,13-dibutyrate (PDBu), a PKC activator, produced a gradual and sustained contraction of greater magnitude in denuded aortic rings than in intact rings. When aortic rings were pretreated with graded concentrations of different PKC inhibitors, inhibition of ET-induced contractions began at 10(-9)M and was nearly complete at 10(-3)M, and the reduction was greater in intact than in denuded rings. Pretreatment of aortic rings with PDBu or NG-nitro-L-arginine methyl ester (L-NAME), an inhibitor of nitric oxide synthase, potentiated ET-induced contractions. PKC enzyme assay showed activation of PKC in aortic rings that were treated with either ET or PDBu, inhibition after pretreatment with PKC inhibitors, and no change with 4 alpha-phorbol 12,13-didecanoate (PDD), an inactive phorbol ester. ET significantly increased nitrate and nitrite production, which was further increased by pretreatment with PKC inhibitors. PDBu prevented ET-induced nitrate/nitrite production, and PDD had no effect. These results strongly suggest that PKC mediates, in part, ET-induced contractions in rat aortic rings and that an intact endothelium is required for maximum inhibition by PKC inhibitors because PKC stimulated by ET inhibits nitric oxide release.
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PMID:Action of protein kinase C in endothelin-induced contractions in rat aortic rings. 876 71

The contractile response to a protein kinase C activator, phorbol 12,13-dibutylate, and the relaxant effect of nicorandil on this contraction were studied in the canine isolated coronary artery. Phorbol 12,13-dibutylate (10(-9)-3 x 10(-6) M) elicited slowly developing, dose-dependent and sustained contractions which were antagonized by a putative protein kinase C inhibitor, staurosporine. Removal of Ca2+ from the medium or pretreatment with nifedipine (10(-6) M) partly inhibited the response to phorbol 12,13-dibutylate. Nicorandil (10(-7)-3 x 10(-4) M) produced full relaxation at its maximum effect in rings precontracted with phorbol 12,13-dibutylate (10(-7) M). Nitroglycerin (10(-9)-3 x 10(-5) M) caused only a partial relaxation (to about 30%), but subsequent addition of cromakalim (10(-5) M) to the nitroglycerin-treated rings (cromakalim alone inducing a partial relaxation of about 35%) caused nearly full relaxation. Methylene blue (5 x 10(-6) M) inhibited the relaxant response to lower (< or = 10(-5) M) but not to higher concentrations of nicorandil, while it antagonized the nitroglycerin-induced relaxation at all concentrations used. The relaxant response at higher concentrations of nicorandil (> or = 3 x 10(-5) M) was antagonized by 10(-6) M of glibenclamide. These results suggest that the contraction induced by phorbol 12,13-dibutylate may be related to an activation of protein kinase C and, in part, to increases in the Ca2+ influx via voltage-dependent Ca2+ channels. It appears that nicorandil relaxes the contraction induced by phorbol 12,13-dibutylate through a nitrate-like mode of action, combined with a potassium channel-opening activity.
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PMID:Relaxant effect of nicorandil on the tonic contraction of the canine large coronary artery induced by phorbol 12,13-dibutylate. 884 8

To determine whether angiotensin (ANG) II, a vasoconstrictor hormone, activates constitutive nitric oxide synthase (cNOS) in endothelial cells (ECs), we investigated the cellular mechanism by which ANG II induces nitric oxide (NO) formation in cultured bovine ECs. ANG II rapidly (within 1 min) and dose-dependently (10(-9)-10(-6) M) increased nitrate/nitrite (NOx) production. This effect of ANG II was abolished by a NOS inhibitor, NG-monomethyl-L-arginine. An ANG II type 1 (AT1) receptor antagonist (DuP 753), but not an ANG II type 2 (AT2) receptor antagonist (PD 123177), dose-dependently inhibited ANG II-induced NOx production. A Ca(2+)-channel blocker (barnidipine) failed to affect ANG II-induced NOx production, whereas an intracellular Ca2+ chelator (BAPTA) and a calmodulin inhibitor (W-7) abolished NOx production induced by ANG II. A protein kinase C (PKC) inhibitor (H-7) and down-regulation of endogenous PKC after pretreatment with phorbol ester decreased NOx production stimulated by ANG II. ANG II transiently stimulated inositol 1,4,5-trisphosphate (IP3) formation, and increased cytosolic free Ca2+ concentrations; these effects were blocked by DuP 753. Our data demonstrate that ANG II stimulates NO release by activation of Ca2+/calmodulin-dependent cNOS via AT1 receptors in bovine ECs.
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PMID:Angiotensin II activates endothelial constitutive nitric oxide synthase via AT1 receptors. 889 49

Our purpose was to determine the role of protein kinases in the mediation of the stimulatory effects of lead on catecholamine secretion. Pheochromocytoma cells were incubated for 90 minutes with W-7 (calmodulin antagonist), calphostin C (protein kinase C inhibitor), Sp-cAMPS (cAMP agonist), Rp-cAMPS (cAMP antagonist), forskolin (activator of adenylyl cyclase), or lead nitrate. Catecholamines were measured by liquid chromatography. Lead had a stimulatory effect on catecholamine secretion, whereas W-7 was inhibitory. In the presence of both lead and W-7, the response was markedly decreased compared to that seen with lead alone. Calphostin C suppressed the secretion of catecholamines; however, in the presence of lead and calphostin C, the secretion was similar to that seen with lead alone. Compared to control, Sp-cAMPS was stimulatory. Co-incubation of Sp-cAMPS and lead had a slight synergistic effect. Rp-cAMPS decreased catecholamine secretion, but co-incubation of Rp-cAMPS and lead resulted in a slight reduction compared to lead alone. Forskolin markedly increased the secretion of catecholamines, and co-incubation of lead and forskolin resulted in a synergistic increase. In the absence of calcium, lead had no effect. We conclude that lead stimulates catecholamine secretion by acting through the calcium/calmodulin-dependent protein kinase II system and not through the protein kinase C or protein kinase A system, and requires the presence of calcium for its action.
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PMID:A study of the cellular mechanism by which lead affects catecholamine secretion. 932 73

It is shown that lead alters calcium mediated cellular processes in several biological systems. Calcium enhances the activity of protein kinase C (PKC) which takes part in eliciting cell mitosis. In this study, the effects of lead nitrate on the activity of PKC enzyme were investigated in rat liver. The PKC activity was determined at 12, 24, 48, 72, 120, 168 hours after treatment with a single dose of lead nitrate in male Wistar rats. The results showed that the specific PKC activity of the purified particulate fraction was increased and reached a maximum at 24 hour, and lasted for 48 hours. This augmented activity of PKC was parallel with the increase of the lead level in the purified particulate fraction, although the protein levels of PKC alpha, PKC delta and PKC zeta were unchanged. Moreover, the frequency of mitotic cells also exhibited a significant increase, and like PKC activity, reached its maximum at 24 hour with accompany signs of liver enlargement. The results suggest that the PKC activation may be involved in promoting liver cell proliferation in lead nitrate-treated rats.
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PMID:Augmentation of protein kinase C activity and liver cell proliferation in lead nitrate-treated rats. 935 Mar 43

The anti-ischemic effects of organic nitrates are rapidly attenuated due to the development of nitrate tolerance. The mechanisms underlying this phenomenon likely involve several independent factors. As a vasodilator, nitroglycerin activates compensatory neurohumoral mechanisms such as the renin-angiotensin system and increases catecholamine and vasopressin levels, all of which may attenuate its vasodilator potency. Tolerance may be also due to the inability of the vessel to dilate after prolonged treatment with the nitrate. More recent experimental studies have challenged traditional tolerance concepts by demonstrating that tolerance is not associated with sulfhydryl group depletion, reduced nitroglycerin biotransformation, or desensitization of the target enzyme guanylyl-cyclase. Experimental and clinical observations suggest that tolerance may be the consequence of intrinsic abnormalities of the vasculature, including enhanced endothelial production of oxygen-derived free radicals secondary to an activation of NAD(P)H-dependent oxidases and an activation of PKC. Superoxide degrades nitric oxide derived from nitroglycerin (NTG) while C activation causes enhanced sensitivity of the vasculature to circulating neurohormones such as catecholamines, angiotensin II, and serotonin, all of which may compromise the vasodilator potency of NTG. Interestingly, these vascular consequences of in vivo NTG treatment such as superoxide production and PKC activation can be mimicked in vitro by incubating cultured endothelial and smooth muscle cells with angiotensin II. Furthermore, nitrate tolerance and rebound following sudden cessation of prolonged NTG therapy can be prevented by concomitant treatment with high-dose angiotensin-converting enzyme inhibition, angiotensin type 1 receptor blockade, or antioxidants such as hydralazine. Thus one can conclude that neurohumoral counterregulatory mechanisms such as increased circulating levels of angiotensin II may be at least in part responsible for tolerance mechanisms at the cellular level.
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PMID:Evidence for a role of oxygen-derived free radicals and protein kinase C in nitrate tolerance. 942 22

Hig levels of circulating atrial natriuretic factor (ANF) have been reported in several physiopathologic conditions like hypertension, heart and renal failure, pregnancy and high sodium intake. Nevertheless, neither relationships with water-sodium space regulation nor the role of an ANF vascular relaxant effect have been yet defined. The aim of present experiments was to characterize the contribution of circulating ANF and its vascular relaxing effects in the two kidney-two clip (2K2C) experimental model of renovascular hypertension. Complementary, plasma metabolites nitrite/nitrate of nitric oxide (NO) was examined because of mediation for both (NO an ANF) through cGMP. Three results showed (two-four weeks after surgery): indirect systolic blood pressure (mmHg), 186 +/- 4 in HT and 122 +/- 1 in SH (p < 0.001); a significant increase of plasma ANF (fmol/ml) in HT (n = 7, 1221 +/- 253) vs. SH (n = 9, 476 +/- 82; p < 0.02). Nitrate/nitrite plasma concentrations (mumol/l) were mpt different between SH and. The relaxant effect of ANF (10(-9), 10(-8) and 10(-7) M) on phenylephrine (3,5 x 10(-6) M) contracted rings from HT rats was smaller than SH rats (10(-8) M, p < 0.05). Contractions to phorbol 12, 13-dibutyrate (seven weeks after surgery) were significantly higher in rings from HT rats (p < 0.001). We conclude: 1) in addition to decreased granularity in atrial myocardiocytes, high circulating values of ANF here described suggest an increased turnover of the peptide in 2K2C hypertensive rats; 2) lower significant vascular relaxant effects in HT rats would indicate down regulation of ANF receptors in this model; the latter would derive from high plasma ANF concentration and, tentatively, because of greater activity of protein kinase C in the vascular wall; 39 similar values of plasma nitrite/nitrate in SH and HT rats would indicate a comparable NO circulating availability in both groups.
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PMID:Atrial natriuretic factor in two kidney--two clip renovascular hypertension in the rat. 970 50

In this study, Escherichia coli lipopolysaccharide (LPS) dose-dependently (100-300 microg/ml) and time-dependently (10-60 min) inhibited platelet aggregation in human platelets stimulated by agonists. LPS also dose-dependently inhibited the phosphoinositide breakdown and the intracellular Ca+2 mobilization in human platelets stimulated by collagen. LPS (300 microg/ml) also significantly inhibited the thromboxane A2 formation stimulated by collagen in human platelets. Moreover, LPS (100-300 microg/ml) dose-dependently decreased the fluorescence of platelet membranes tagged with diphenylhexatrience. In addition, LPS (200 and 300 microg/ml) significantly increased the formation of cyclic GMP but not cyclic AMP in platelets. LPS (200 microg/ml) also significantly increased the production of nitrate within a 30 min incubation period. Rapid phosphorylation of a platelet protein of Mr 47,000, a marker of protein kinase C activation, was triggered by phorbol-12-13-dibutyrate (PDBu, 50 nM). This phosphorylation was markedly inhibited by LPS (200 microg/ml) within a 30 min incubation period. These results indicate that the antiplatelet activity of LPS may be involved in two important pathways. (1) LPS may induce conformational changes in the platelet membrane, leading to change in the activity of phospholipase C. (2) LPS also activated the formation of nitric oxide (NO)/cyclic GMP in human platelets, resulting in inhibition of platelet aggregation. Therefore, LPS-mediated alteration of platelet function may contribute to bleeding diathesis in septicaemic and endotoxaemic patients.
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PMID:Mechanisms involved in the antiplatelet activity of Escherichia coli lipopolysaccharide in human platelets. 979 85


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