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 130 kDa atrial natriuretic factor receptor (ANF-R1) purified from bovine adrenal zona glomerulosa is phosphorylated in vitro by serine/threonine protein kinases such as cAMP-, cGMP-dependent and protein kinase C. This phosphorylation is independent of the presence of ANF (99-126) and there is no detectable intrinsic kinase activity associated with the ANF-R1 receptor or with its activated form. In bovine adrenal zona glomerulosa cells, TPA (phorbol ester) induces a marked inhibition of the ANF-stimulated cGMP accumulation as well as of the membrane ANF-sensitive guanylate cyclase catalytic activity without any change in the binding capacity or affinity for 125I-ANF. However, we have demonstrated a significant 32P incorporation in the ANF-R1 receptor of the TPA-treated cells. The effect of TPA on the zona glomerulosa ANF-R1 receptors was abolished by calphostin C, a specific protein kinase C inhibitor. Altered ANF actions due to blunted response of guanylate cyclase to ANF could be a consequence of the ANF receptor phosphorylation by excessive activity of protein kinase C and might be involved in the pathogenesis of hypertension.
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PMID:Phosphorylation of atrial natriuretic factor R1 receptor by serine/threonine protein kinases: evidences for receptor regulation. 128 Mar 21

Incubation of cultured rat aortic smooth muscle cells (A-10) with activators of cyclic nucleotides resulted in transiently increased activity of extractable topoisomerase I or topoisomerase II. ANF, which induces cGMP accumulation, potentiated camptothecin-induced, topoisomerase I linked DNA strand breakage and increased the specific activity of extractable topoisomerase I (maximum activity 5-15 min after treatment), but had no effect on topoisomerase II activity. These effects are similar to those reported for AVP and phorbol esters, activators of protein kinase C. Forskolin and isoproterenol, which induce cAMP accumulation, activated extractable topoisomerase II (maximum 5-15 min after treatment), but not topoisomerase I. Permeable cyclic nucleotide analogs dBcAMP and 8BrcGMP selectively activated extractable topoisomerase II and topoisomerase I activities, respectively. Activation of topoisomerase I by either AVP or PdBu was attenuated by cotreatment with 8BrcGMP or dBcAMP, and activation of topoisomerase II by dBcAMP was attenuated by cotreatment with AVP or PdBU, suggesting that elements of the protein kinase C and the cyclic nucleotide linked signal-transduction pathways can interact to modify nuclear enzymic activity. IBMX, which elevates intracellular cAMP and cGMP, increased the extractable activities of both topoisomerase I and topoisomerase II. Thus, topoisomerase activity in cells may be governed in part by cyclic nucleotide levels.
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PMID:Regulation of topoisomerase I and II activities by cyclic nucleotide- and phospholipid-dependent protein kinases. Effects of interactions between the two transduction pathways. 166 30

In the present study, we investigated the effects of calmodulin, adenosine 5'-triphosphate (ATP) and pertussis toxin (PT) on phorbol ester (PMA) (a protein kinase C activator) induced inhibition of ANF-stimulated cyclic GMP formation in cells from the human renal cell line, SK-NEP-1. PMA inhibited ANF-stimulated guanylate cyclase activity in particulate membranes by about 65%. Calmodulin reversed this inhibition in a dose dependent manner. ATP potentiated Mg++ but not Mn++ supported guanylate cyclase activity. In PMA treated membranes, ATP potentiating effects were abolished. PMA also inhibited ANF-stimulated cGMP accumulation, but pretreatment with PT prevented this PMA inhibition. PT did not affect basal or ANF-stimulated cGMP accumulation. In conclusion, these results demonstrated that PMA (activated protein kinase C) inhibited ANF stimulation of particulate guanylate cyclase in opposition to the activating effects of calmodulin or ATP in SK-NEP-1 cells. The protein kinase C inhibitory effects appeared to be mediated via a PT-sensitive G protein.
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PMID:The opposing effects of calmodulin, adenosine 5'-triphosphate, and pertussis toxin on phorbol ester induced inhibition of atrial natriuretic factor stimulated guanylate cyclase in SK-NEP-1 cells. 167 90

We examined calcium and calmodulin regulation of atrial natriuretic factor stimulation of particulate-membrane guanylate cyclase (ANF-s-GC) in SK-NEP-1 cells. W7 and trifluoropiperazine, but not W5, inhibited whole cellular ANF-stimulated cyclic GMP accumulation (ANF-s-cGMP). EGTA and LaCl3 decreased ANF-s-GC and calmodulin reversed this inhibition. A23187-induced inhibition of ANF-s-cGMP was only partly reversible by IBMX. H7 or staurosporine counteracted the inhibitory effect of A23187. Calcium inhibited basal and ANF-s-GC. These data suggest that at low concentrations of calcium, ANF-s-GC was calcium-calmodulin dependent but high concentrations of calcium inhibited ANF-s-GC through phosphodiesterase, through inhibition of GC, and probably through protein kinase C.
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PMID:Calcium and calmodulin regulate atrial natriuretic factor stimulation of cyclic GMP in a human renal cell line. 168 32

Receptor mediated internalization of 125I-ANF (99-126) and the underlying mechanism was studied in PC12 cells. Phosphorylation of PC12 cell plasma membrane proteins at 0 degrees C or 37 degrees C was not altered in presence of ANF (99-126) or c-ANF (4-23). Exposure of cells to phorbol 12-myristate 13-acetate (PMA, 100 ng/ml) did not alter the endocytic rate or extent of 125I-ANF (99-126) internalization. When cells were treated with a combination of PMA and the calcium ionophore A23187, internalization was not stimulated. Incubation with A23187 (10 microM) alone decreased 125I-ANF (99-126) internalization by 22% in Ca2+ containing medium. Cell surface binding increased 10% in the presence of Ca2+ compared to Ca2+ free medium, irrespective of the presence of A23187. Ca2+ appears to play an important role in the binding of ANF to the receptor and initiation of ligand-receptor complex internalization. Activation of protein kinase C or receptor phosphorylation is not an essential step in initiating ANF receptor internalization.
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PMID:Regulation of ANF receptor internalization: involvement of extracellular calcium. 185 Sep 91

Treatment of rat thoracic aortic smooth muscle cells (A-10) with sodium fluoride (NaF) resulted in inhibition of beta-adrenergic agonist--and forskolin-induced cAMP and ANF-induced cGMP accumulation and stimulation of diacylglycerol (DAG) accumulation. The concentration of NaF and treatment times required to mediate these inhibitory effects were similar to those observed for stimulation of DAG accumulation. Treatment of the cells with NaF also resulted in a loss of [3H]phorbol dibutyrate (PDBu) binding in the cytosolic portion of the cells. In addition, pre-treatment of the cells with NaF resulted in an increase in the adenylate cyclase activity. Pertussis toxin (PT) pre-treatment of the cells did not significantly affect NaF-mediated effects. Pre-treatment of the cells with protein kinase C (PKC) inhibitor staurosporin partially reversed NaF-mediated inhibition of cyclic nucleotides accumulation. These data suggest that inhibition of the formation of agonist-induced cyclic nucleotides by NaF may be due to the formation of DAG and cAMP which lead to the activation of PKC and cAMP-PK, resulting in phosphorylation of key regulatory protein(s) in the cyclic nucleotides pathway.
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PMID:Possible involvement of protein kinase C and cyclic AMP-dependent protein kinase in the sodium fluoride-mediated inhibition of cyclic nucleotide accumulation in smooth muscle cells. 208 Oct 95

Prolonged exposure of A-10 cells to Arginine Vasopressin (AVP) resulted in the following responses: (a) loss of vasopressin receptors from the cell surface (30-40%), (b) increased basal levels of inositol and inositol monophosphate, (c) decreased inositol di- and trisphosphate production and decreased intracellular calcium release in response to a second challenge with AVP, (d) attenuation of AVP-mediated inhibition of isoproterenol-stimulated cAMP and ANF-stimulated cGMP accumulation and (e) attenuation of thrombin and ATP-mediated increase in inositol di- and trisphosphate accumulation and intracellular calcium release. All the above responses depended on the time of exposure of the cells to AVP with the responses being attenuated as early as 5-10 min of exposure to AVP. The desensitization also depended on the concentration of AVP used with 50% of maximal desensitization for each response being observed at 5 nM of AVP. This concentration of AVP corresponded well with the Kd of vasopressin for binding to these sites. Desensitization of protein kinase C (PKC) by prolonged exposure of the cells to PDBu or addition of the PKC inhibitor staurosporine during pretreatment with AVP did not prevent AVP-mediated desensitization, suggesting that PKC may not be involved in AVP-mediated desensitization in smooth muscle cells. It is concluded that AVP induced both homologous and heterologous desensitization of phosphatidylinositol turnover and calcium release in smooth muscle cells. The desensitization processes did not appear to be mediated by protein kinase C. The possibility that the locus of the heterologous desensitization may be at the level of substrates such as PI, PIP and PIP2 is discussed.
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PMID:Homologous and heterologous desensitization mediated by vasopressin in smooth muscle cells. 253 42

ANF did not prevent the formation of [3H] inositol trisphosphate in response to AII but inhibited aldosterone secretion in calf adrenal glomerulosa cells. 8-bromo cGMP did not affect either inositol phosphate formation or aldosterone secretion. Changes in cytosolic Ca++ concentration induced by AII, as measured by Quin 2 fluorescence, were also unaffected by ANF. No difference in adrenal cell protein phosphorylation with AII or AII + ANF was observed. The results suggest that ANF may inhibit aldosterone secretion through a non-guanyl cyclase linked receptor system not involving the formation of phosphoinositide-derived second messengers. Interference with protein kinase C activity cannot be ruled out.
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PMID:Atrial natriuretic factor inhibits angiotensin-induced aldosterone secretion: not through cGMP or interference with phospholipase C. 253 17

We determined the vascular and airway effects of PGF2 alpha and its mechanism of action on isolated-perfused lungs of rats were isolated and perfused at 50 ml/kg/min with Krebs-Henseleit bicarbonate buffer solution containing 3% bovine serum albumin. The lungs were ventilated with 21% O2 and 5% CO2 at a tidal volume of 2 ml. frequency of 60 per minute and positive end expiratory pressure of 3 cmH2O. Following injection of 50 micrograms PGF2 alpha into the afferent pulmonary catheter, there was a marked rise in pulmonary arterial pressure (Ppa) and in resistance to airflow across the lung (RL) and a fall in dynamic lung compliance (Cdyn). Double vascular occlusion technique revealed that 29% of the rise in Ppa was due to an increase in upstream and 71% to downstream resistance. N omega-nitro-L-arginine, 100 microns, a NO synthase inhibitor potentiated the Ppa response two-fold with significant change in airway mechanics. Rat atrial natriuretic factor (r-ANF), 40 micrograms quickly reversed the changes in Ppa, RL and Cdyn. Infusion of r-ANF prior to PGF2 alpha attenuated the Ppa response by 38%, RL by 44% and Cdyn by 12%. SQ 29548, a thromboxane receptor blocker and Cl, a protein kinase C (PKC) inhibitor, fully blocked both the vascular and airway responses to PGF2 alpha. PGF2 alpha is a constrictor of pulmonary vessels and airways in rat lungs via thromboxane SQ 29548 receptors, thansduced by intracellular PKC.
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PMID:PGF2 alpha causes bronchoconstriction and pulmonary vasoconstriction via thromboxane receptors in rat lung. 888 79

The thick ascending limb of Henle's loop (TAL) is involved in the urinary dilution/concentration process by actively reabsorbing NaCl through a complex mechanism. Some years ago, compelling evidence was provided that cAMP stimulates NaCl reabsorption through the activation of adenylyl cyclase by several hormones other than antidiuretic hormone (ADH). Synthesis of cyclic AMP is inhibited by prostaglandin E2 (PGE2) and arachidonic acid per se, via the pertussis toxin-sensitive protein Gi activation. Cyclic GMP cascade down-regulates NaCl reabsorption, through activation of both guanylyl cyclase receptors (by ANF and urodilatin), and soluble guanylyl cyclase (by nitric oxide, NO). In TAL, NO is produced by the cytokine-inducible form of NO synthase, but not by the constitutive one. Agonists known to activate protein kinase C (PKC) in TAL elicit opposite effects on NaCl reabsorption. Five PKC isoforms belonging to the conventional, novel, and atypical enzyme subclasses have been recently defined in TAL and might differently regulate NaCl flux. Increments in intracellular calcium ([Ca2+]i) inhibit NaCl reabsorption via three pathways: (i) a possible direct effect on ion channels, (ii) a PLA2-mediated production of arachidonic acid derivatives (20-HETE), and (iii) inhibition of the ADH-induced cAMP accumulation. This last effect results from activation of phosphodiesterase (common to the agents that increase [Ca2+]i), and inhibition of adenylyl cyclase (only elicited by Ca2+c). Finally, the apical localization of some agonists effects is documented.
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PMID:Transducing pathways involved in the control of NaCl reabsorption in the thick ascending limb of Henle's loop. 955 29

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