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)

We have investigated the effect of angiotensin II, bradykinin, insulin and insulin-like growth factor I on phosphoinositide turnover in intact rat glomeruli and tubules. Angiotensin II produced a dose-dependent increase in inositol monophosphate formation with an IC50 of 10(-7)M, when added to isolated rat glomeruli. Angiotensin II-stimulated inositol phosphates formation was inhibited by the angiotensin receptor antagonist [Sar-Leu8]angiotensin II, indicating that the above response was mediated through activation of an angiotensin receptor in intact glomeruli. Besides angiotensin, in intact glomeruli, only bradykinin stimulated a phosphoinositide response, while in intact proximal tubules, none of the agonists tested produced an activation of the inositol phosphate formation. Angiotensin II- and bradykinin-stimulated inositol phosphate accumulation in intact glomeruli was inhibited by phorbol myristate acetate, an activator of protein kinase C.
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PMID:Angiotensin II and bradykinin stimulate phosphoinositide breakdown in intact rat kidney glomeruli but not in proximal tubules: glomerular response modulated by phorbol ester. 215 5

The induction of steroid 11 beta-hydroxylase and 17 alpha-hydroxylase was studied in bovine adrenocortical cell cultures in serum-free medium. In the absence of insulin-like growth factor (IGF)-I or insulin, cholera toxin failed to increase 11 beta-hydroxylase enzyme activity or messenger RNA (mRNA) levels; cholera toxin increased 11 beta-hydroxylase activity and mRNA only in the presence of 10 nM IGF-I or of higher concentrations of insulin. 17 alpha-Hydroxylase enzyme activity and mRNA, in contrast, were increased maximally by cholera toxin in the absence of insulin or IGF. We also compared the induction of 11 beta-hydroxylase and 17 alpha-hydroxylase by intracellular second messengers. When cultures were incubated with cholera toxin, cAMP analogs, forskolin, ACTH, or prostaglandin E1 in defined medium with insulin, all agents increased the mRNA levels for 11 beta-hydroxylase and 17 alpha-hydroxylase. 11 beta-Hydroxylase enzyme activity was detectable in control (insulin only) cultures and was increased to varying extents by the different agents. 17 alpha-Hydroxylase enzyme activity was undetectable in control cultures and was increased more than 50-fold by all agents. We compared the sensitivity of induction of 11 beta-hydroxylase and 17 alpha-hydroxylase enzyme activities by cAMP using serial dilutions of an equimolar mixture of N6-monobutyryl cAMP and 8-bromo cAMP. For both enzymes, the response curve was biphasic, with a maximal response in the range of 20 to 100 microM each analog, but the decline in response at higher cAMP concentrations was much more marked for 11 beta-hydroxylase than for 17 alpha-hydroxylase. The effects of activation of protein kinase C were studied in cultures incubated with 12-O-tetradecanoylphorbol-13-acetate (TPA) together with a cAMP analog mixture. TPA decreased cAMP-induced 11 beta-hydroxylase mRNA; TPA also decreased the induction of 17 alpha-hydroxylase mRNA, as previously reported. TPA caused a dose-dependent decrease in cAMP-induced 11 beta-hydroxylase enzyme activity. Angiotensin II at 0.1 to 10 microM also decreased induction of 11 beta-hydroxylase. Induction of 11 beta-hydroxylase and 17 alpha-hydroxylase is coordinately regulated by cAMP, protein kinase C, and IGF-I/insulin, but responses to these regulators differ in various respects between these two cytochrome P450 enzymes.
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PMID:Regulation of 11 beta- and 17 alpha-hydroxylases in cultured bovine adrenocortical cells: 3', 5'-cyclic adenosine monophosphate, insulin-like growth factor-I, and activators of protein kinase C. 216 96

Studies were performed to investigate regulatory pathways of loop diuretic-sensitive Na+/K+/Cl- cotransport in cultured rat glomerular mesangial cells. Angiotensin II, alpha-thrombin, and epidermal growth factor (EGF) all stimulated Na+/K+/Cl- cotransport in a concentration-dependent manner. Pertussis toxin pretreatment reduced the effects of angiotensin II and alpha-thrombin but not that of EGF. Addition of the protein kinase C inhibitor staurosporine or down-regulation of protein kinase C by prolonged incubation with phorbol 12-myristate 13-acetate partially reduced the effects of angiotensin II and alpha-thrombin and completely blunted the phorbol 12-myristate 13-acetate-induced stimulation of Na+/K+/Cl- cotransport but did not affect EGF-induced stimulation. Exposure of cells to a calcium ionophore, A23187, resulted in a concentration-dependent stimulation of Na+/K+/Cl- cotransport, which was not significantly inhibited by down-regulation of protein kinase C but was completely inhibited by the calmodulin antagonist, N-(6-aminohexyl)-5-chloro-1-naphthalenesulfonamide (W-7). Stimulation of the cotransport by angiotensin II or alpha-thrombin was also partially inhibited by W-7. Inhibitory effects of protein kinase C down-regulation and W-7 were additive and, when combined, produced a complete inhibition of angiotensin II-induced stimulation of Na+/K+/Cl- cotransport. In saponin-permeabilized mesangial cells, phosphorylation of a synthetic decapeptide substrate for Ca2+/calmodulin-dependent kinase II, Pro-Leu-Ser-Arg-Thr-Leu-Ser-Val-Ser-Ser-NH3, was demonstrated. Maximal activation of the decapeptide substrate phosphorylation required the presence of Ca2+ and calmodulin and was dependent on Ca2+ concentration. These findings indicate that stimulation of Na+/K+/Cl- cotransport by angiotensin II and alpha-thrombin is mediated by protein kinase C and Ca2+/calmodulin-dependent kinases whereas the action of EGF is mediated by other pathways.
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PMID:Agonist stimulation of Na+/K+/Cl- cotransport in rat glomerular mesangial cells. Evidence for protein kinase C-dependent and Ca2+/calmodulin-dependent pathways. 217 Mar 89

Using intact muscle strips from the bovine carotid artery, the time course of translocation of protein kinase C (PKC) from the cytosol to the membrane fraction was measured in response to various agonists that induce contractile responses. PKC activity was assessed by Ca2+/phospholipid-dependent phosphorylation of histone. Exposure of the muscle strips to phorbol ester (12-deoxyphorbol 13-isobutyrate) induced a rapid and sustained translocation of PKC from the cytosol to the membrane fraction, and a slowly developing but sustained contractile response. Histamine induced a comparable initial translocation of PKC to the membrane which then decreased somewhat to a stable plateau significantly above basal values. Histamine also led to a rapid and sustained increase in tension. Angiotensin I, which caused a rapid but transient contraction, induced a rapid initial translocation of PKC to the membrane. The membrane-associated PKC then declined to a stable plateau significantly lower than that seen after a histamine-induced response, and only slightly above the basal value. Endothelin, which induced a sustained contraction, caused a sustained translocation of PKC from the cytosol to the membrane. In contrast, although exposure to 35 mM-KCl induced a rapid and sustained contraction, it caused only a transient translocation of PKC; the membrane-associated PKC returned to its basal value within 20 min. These results demonstrate that PKC in intact smooth muscle can be rapidly translocated to the membrane and remains membrane-bound during sustained phorbol ester- or agonist-induced contractions, but that such a sustained translocation of PKC does not occur during prolonged stimulation with KCl.
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PMID:Protein kinase C translocation in intact vascular smooth muscle strips. 220 2

The steady-state angiotensin II response was measured in primary cultures of reaggregated vascular smooth muscle cells derived from rat aorta by use of intracellular microelectrode recording of membrane potentials. Angiotensin II (10(-9)-10(-6) M) produced a depolarization which triggered a single action potential, consisting of a spike plus plateau. In addition, angiotensin II prolonged the action potential plateau and lowered input resistance. The angiotensin II-induced action potentials and the action potential plateau prolongation were inhibited by verapamil. Saralasin blocked the occurrence of angiotensin II-induced action potentials and reversed the increase in action potential duration provoked by angiotensin II. Saralasin, in the absence of angiotensin II, exhibited agonistic activity which was manifest by plateau prolongation. Therefore, angiotensin II, through interaction of the peptide with its receptor, depolarizes cultured vascular smooth muscle cells and prolongs the calcium-dependent action potentials. These effects could be mediated by the known ability of angiotensin II to stimulate production of inositol trisphosphate and diacylglycerol, and activation of protein kinase C.
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PMID:Angiotensin stimulates Ca2(+)-dependent action potentials in cultured smooth muscle cells. 227 59

The amplification of alpha-adrenoceptor-mediated vasoconstriction by angiotensin II was studied in femoral artery rings from rabbits. Threshold concentrations of angiotensin II (0.1 nM) increased the maximal response to clonidine to 139 +/- 8% of control and produced a 3.2-fold increase in sensitivity. These effects of angiotensin II were reversed when tissues were pretreated with staurosporine (50 nM), an inhibitor of protein kinase C. The amplification of the alpha-adrenoceptor-mediated vasoconstrictor effects of thrombin and norepinephrine by angiotensin II were also reversed by pretreatment with staurosporine. Angiotensin II induced a response amplification in vascular smooth muscle known to be a nonspecific phenomenon, implying postreceptor interaction at intracellular transducer systems. Our findings suggest that upon activation of protein kinase C by angiotensin II, arterial responses to alpha-adrenoceptor agonists are amplified. This provides for nonspecific changes in vascular sensitivity by tonic alterations in postsynaptic modulation by enzyme systems known to regulate Ca2(+)-dependent phenomena, e.g. those related to vascular excitation-contraction mechanisms.
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PMID:Protein kinase C as a modulator of response amplification in vascular smooth muscle. 228 73

Angiotensin II (ang II) induces c-fos gene expression in part via a protein kinase C-dependent mechanism in cultured vascular smooth muscle cells (VSMC). However, little is known about the mechanisms by which protein kinase C regulates nuclear functions. We examined the ability of ang II to phosphorylate nuclear lamina proteins in VSMC and the possibility that protein kinase C is involved in these putative phosphorylation events. Ang II stimulated the phosphorylation of Triton X-100- and high salt-insoluble nuclear envelope proteins with molecular weights of 70,000, 67,000, and 60,000. These proteins were identified as lamins A, B, and C, respectively, based on their mobilities on two-dimensional gel electrophoresis and interaction with antibodies to lamins as detected by immunoblot analyses. After a 2-min delay, phosphorylation levels of lamins increased, peaked at 20-30 min, and were sustained for at least 60 min after ang II stimulation. The threshold, half-maximal, and maximal concentrations of ang II which induced phosphorylation of lamins were 0.1, 0.5-1, and 100 nM, respectively. Phorbol 12-myristate 13-acetate also induced these reactions, whereas ionomycin did not. Down-regulation of protein kinase C by prolonged treatment with phorbol 12,13-dibutyrate attenuated ang II-induced phosphorylation of lamins. In vitro phosphorylation of nuclear envelope proteins by protein kinase C revealed that lamins served as substrates for this enzyme. These results indicate that ang II induces phosphorylation of lamins in cultured VSMC and suggest that protein kinase C is either directly or indirectly involved in these reactions. The results raise the possibility that phosphorylation of nuclear proteins is one of the important steps by which the protein kinase C signaling pathway regulates agonist-induced nuclear events.
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PMID:Angiotensin II stimulates phosphorylation of nuclear lamins via a protein kinase C-dependent mechanism in cultured vascular smooth muscle cells. 229 7

The effects of increased protein kinase C activity were studied in neonatal rat myocytes grown in primary culture. The changes in mechanical and electrical behavior, as well as protein phosphorylation, that followed the apparent activation of protein kinase C by the phorbol ester 12-O-tetradecanoylphorbol-13-acetate (TPA) were examined. As spontaneous beating frequency was increased minimally by 10 nM TPA and by 100% with 85 nM TPA, shortening amplitude, shortening velocity, and relaxation velocity decreased concomitantly. In contrast, 4-alpha-phorbol-12,13-didecanoate (alpha-PDD), which does not activate protein kinase C, had no effect on beating behavior at 800 nM. In voltage-clamped single myocytes, both steady-state and transient components of the cadmium-sensitive calcium current were increased by the addition of TPA (65 nM). Neither the time constant for the inactivation of the transient component of this calcium current nor the reversal potential was altered by TPA. The phosphorylation state of a discrete set of proteins, with apparent molecular weights of 32 and 83 kDa, was enhanced when TPA was added to intact myocytes. Angiotensin II enhances the phosphorylation state of the same set of proteins as observed with TPA. We conclude that activation of protein kinase C can modify mechanical behavior and increase L-type Ca2+ channel activity in cultured neonatal rat ventricular myocytes. The remarkable similarity in mechanical, electrical, and protein phosphorylation responses of cultured neonatal myocytes following TPA or angiotensin II application indicate that protein kinase C may mediate the action of angiotensin II.
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PMID:Phorbol ester increases calcium current and simulates the effects of angiotensin II on cultured neonatal rat heart myocytes. 244 59

To investigate the role of vasoconstrictor hormones in vascular smooth muscle cell growth we have studied the effects of the potent vasoconstrictor angiotensin II on cell growth in a cultured rat aortic cell model. Angiotensin II was not mitogenic for these cells, as assessed by determining cell number, nor was it synergistic in this regard with 10% calf serum. However, 24-hour exposure to 100 nM angiotensin II caused an 80% increase in protein synthesis (compared with 0.4% increase with serum control) as measured by tritiated leucine incorporation. This was a "hypertrophic" response as indicated by a 30% increase in protein content and a 45% increase in cell volume. Angiotensin II-induced smooth muscle cell hypertrophy was maximal at 100 nM, had an ED50 of 1 nM, and was inhibited by the competitive antagonist [Sar1, Ile8]angiotensin II. The increase in protein synthesis required continuous presence of angiotensin II for 6 hours and required messenger RNA (mRNA) synthesis as suggested by complete inhibition after exposure to actinomycin D. Angiotensin II-stimulated protein synthesis was dependent on a rise in intracellular Ca2+ concentration evidenced by a 70% decrease in tritiated leucine incorporation after chelation of Ca2+ with 25 microM quin 2-AM. This treatment did not alter protein synthesis induced by 10% calf serum. Decreasing extracellular Na+ to prevent Na+/H+ exchange and intracellular alkalinization did not inhibit the angiotensin II response but decreased the 10% calf serum-stimulated protein synthesis by 35%. Downregulation of protein kinase C by 24-hour treatment with phorbol 12,13-dibutyrate did not inhibit angiotensin II-induced protein synthesis, while phorbol 12-myristate 13-acetate-stimulated protein synthesis was abolished. These findings suggest that angiotensin II-induced hypertrophy, acting via a Ca2+ mechanism, may play an important role in abnormal vascular smooth muscle cell growth in certain forms of hypertension.
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PMID:Angiotensin II-stimulated protein synthesis in cultured vascular smooth muscle cells. 246 88

Angiotensin II (Ang II) stimulation of vascular smooth muscle results in a myriad of intracellular signals that interact to produce the final physiologic response of the cell. One of the earliest documented events following incubation of these cells with Ang II is the rapid, phospholipase C-mediated hydrolysis of phosphatidylinositol-4,5-bisphosphate to yield two second messengers, inositol trisphosphate and diacylglycerol. Inositol trisphosphate releases calcium from nonmitochondrial intracellular storage sites, while diacylglycerol activates protein kinase C. Ang II also stimulates calcium influx and increases calcium efflux for the duration of the stimulus, as well as causing a biphasic change in intracellular pH. The delayed alkalinization is a consequence of enhanced Na+/H+ exchange. These signals then interact to modify the targets of phospholipase C, and result in phosphorylation of numerous cytoplasmic and cytoskeletal proteins. Thus, the signaling events induced by Ang II are complex, and dynamically interact to produce a constantly changing response for the duration of the stimulus.
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PMID:Angiotensin II stimulation of vascular smooth muscle. 247 21


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