Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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 mechanism(s) of force development in vascular smooth muscle following pharmacological activation of protein kinase C by phorbol esters are not known. In this study, we examined the myosin light chain phosphorylation response following stimulation by phorbol 12,13-dibutyrate (PDB) or phenylephrine in rabbit aorta which had been incubated with 32PO4 in order to label ATP pools. Through tryptic phosphopeptide mapping of myosin light chain from intact tissue and comparison to controls using purified components, we inferred that Ca2+-dependent force stimulated by PDB was associated with small increases in serine-19 phosphorylation, consistent with a contractile mechanism involving indirect activation of myosin light chain kinase. Additional residues, consistent with the in vitro substrate specificity of protein kinase C, were also observed to be phosphorylated in response to PDB and represented proportionately a larger fraction of the total phosphorylated myosin light chain in Ca2+-depleted tissues. Stimulation by an alpha 1-adrenergic agonist (phenylephrine) resulted in phosphorylation of residues which were consistent with an activation mechanism involving myosin light chain kinase only. These results indicate that in rabbit aorta the contractile effects of PDB may be partially mediated by Ca2+-dependent activation of myosin light chain kinase. However, the data do not rule out a component of the PDB-stimulated contractile response which is independent of myosin light chain phosphorylation on the serine-19 residue. In addition, activation by a more physiological stimulus, phenylephrine, does not result in protein kinase C-mediated myosin light chain phosphorylation.
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PMID:Myosin light chain phosphorylation in 32P-labeled rabbit aorta stimulated by phorbol 12,13-dibutyrate and phenylephrine. 268 75

The relationship between phosphorylation of the 20-kDa myosin light chain, intracellular calcium levels ([Ca2+]i), and isometric force was studied during prolonged activation of arterial smooth muscle. Aequorin, preloaded into ferret aortic strips, was used as a [Ca2+]i indicator. Two dimensional polyacrylamide gel electrophoresis was used to determine the phosphorylation levels of the 20-kDa myosin light chain (LC20). During the 30-min depolarization of arterial smooth muscle by K+ (21 mM), both LC20 phosphorylation and [Ca2+]i increased significantly at all time points examined as did the steady state stress. A transient rise in LC20 phosphorylation and [Ca2+]i occurred within 30 s, followed by suprabasal levels through the 10-min period during a sustained alpha 1-mediated activation by 10(-5) M phenylephrine whereas a higher force was developed at a shorter time compared to K+. An active phorbol ester 12-deoxyphorbol 13-isobutyrate 20-acetate (DPBA, 10(-6) M) induced a slow contraction of similar magnitude to that induced by K+ without significantly changing either [Ca2+]i or LC20 phosphorylation over a 90-min period. These results demonstrate that the amount of LC20 phosphorylation correlates with the [Ca2+]i in all three types of activation. The initial levels of [Ca2+]i and LC20 phosphorylation correlate with the onset of force development but not the magnitude of steady state stress, suggesting a role for [Ca2+]i and LC20 phosphorylation in regulating the cross bridge cycling rate during tension development. The lack of a detectable increase in [Ca2+]i and LC20 phosphorylation during DPBA activation suggests that sites other than LC20, phosphorylated by protein kinase C, may be involved in regulating smooth muscle contraction.
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PMID:Agonist-specific myosin phosphorylation and intracellular calcium during isometric contractions of arterial smooth muscle. 272 26

The transport of cholesterol to the inner mitochondrial membrane, a key step in steroidogenesis, is subject to hormonal modulation that, at least in part, could be mediated by protein phosphorylation. This step is stimulated by sterol carrier protein 2 (SCP2) and Ca2+. To explore whether SCP2 itself is a potential control point for regulation by Ca2+-dependent phosphorylation we investigated whether highly purified SCP2 could serve as a substrate for major type Ca2+ and non-Ca2+-dependent protein kinases. Phosphorylation by calmodulin protein kinase II (CaM-PK II), myosin light chain kinase (MLCK), cAMP-dependent kinase (PKA) and protein kinase C (PKC) was monitored under optimal conditions for each enzyme. PKA, CaM-PK II and MLCK catalyzed the radiolabeling of histone 2A, synapsin I and myosin light chain (MLC), known substrates for these kinases, respectively, yet no phosphate transfer to SCP2 was observed. In contrast, PKC from two different sources (rat and calf brain) effectively catalyzed the phosphorylation of the highly purified SCP2. The phosphorylation of SCP2 depended on the addition of Ca2+ and phospholipids and was completely blocked by Polymyxin B, a PKC inhibitor. PKC catalyzed phosphorylation of SCP2 displayed a similar dependence on the concentration of ATP. Lineweaver Burk plots of the data indicate Km values for ATP of approximately 6 microM for the phosphorylation of SCP2. Our results, which have revealed for the first time that SCP2 is a substrate for PKC, are consistent with the possibilities that the control of steroidogenesis by tropic hormones and by PKC activation are mediated, at least in part, by the phosphorylation/dephosphorylation of SCP2.
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PMID:Protein kinase C catalyzed phosphorylation of sterol carrier protein 2. 273 66

Administration of ethanol to human platelets resulted in a rapid shape change which was maximal within 30 s. Ethanol did not cause aggregation or secretion of ATP at any time and inhibited aggregation induced by collagen. In platelets that were loaded with the intracellular calcium indicator fura2, ethanol induced a rapid mobilization of calcium from internal, thrombin-sensitive pools. Cytosolic calcium increased to a maximum within 5 s and decreased slowly over the ensuing 5 min to near basal levels. The mobilization of calcium by ethanol coincided with the rapid formation of phosphatidic acid and a decrease in the level of phosphatidylinositol 4,5-bisphosphate, as measured in 32P-labeled platelets. In platelets labeled with myo-[2-3H]inositol, ethanol caused a 20-30% increase in the levels of inositol (1,4,5)-trisphosphate and inositol bisphosphate within 10 s. Ethanol also induced the transient phosphorylation of myosin light chain (20 kDa) and a 40 kDa protein, a known substrate for protein kinase C. The results indicate that ethanol activates phosphoinositide-specific phospholipase C in human platelets. The subsequent mobilization of intracellular calcium and activation of protein kinase C can account for the shape change induced by ethanol.
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PMID:Ethanol stimulates shape change in human platelets by activation of phosphoinositide-specific phospholipase C. 282 32

We have shown that the phosphorylation of smooth muscle regulatory myosin light chain (L20) with myosin light chain kinase (MLCK) produces faster moving bands (GMP1: heterodimer myosin with 1 unphosphorylated L20 and 1 mono-phosphorylated L20, GMP2: homodimer myosin with 2 mono-phosphorylated L20S) on native pyrophosphate polyacrylamide gel electrophoresis (PP1 PAGE) (J. Biochem. 100, 259-268, 1986; J. Biochem. 100, 1681-1684, 1986). However, the mobility of the myosin phosphorylated, at its L20, with protein kinase C (PK-C) was the same that of the unphosphorylated myosin (GM) on PPi PAGE. When the myosin prephosphorylated with MLCK was further phosphorylated with PK-C, PPi PAGE analysis showed only one band comigrating with GM, i.e., GMP1 and GMP2 migrated to the same position as GM. Conversely, when the myosin prephosphorylated with PK-C was further phosphorylated with MLCK, GMP1 and GMP2 were not produced. Thus the effect of L20 phosphorylated with PK-C is quite the opposite of that with MLCK, and the former predominated over the latter. We speculate that phosphorylation of L20 with PK-C "freezes" myosin in the inactive state.
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PMID:Native pyrophosphate gel analysis of smooth muscle myosin phosphorylated with protein kinase C. 283 Feb 55

Myosin light chain phosphorylation in aortic smooth muscle homogenate reached a maximal level of 0.75 mol phosphate/mol light chain, and then declined. Addition of okadaic acid led to a sustained phosphorylation level of 1.7 mol/mol. In the absence of okadaic acid, phosphorylation was predominantly due to myosin light chain kinase, whereas in the presence of okadaic acid both myosin light chain kinase and protein kinase C were involved in phosphorylation. Okadaic acid inhibited dephosphorylation of the distinct sites in LC phosphorylated by either myosin light chain kinase or protein kinase C, suggesting that it exerts its effect through inhibition of myosin light chain phosphatases present in aortic homogenate.
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PMID:Effect of okadaic acid on phosphorylation-dephosphorylation of myosin light chain in aortic smooth muscle homogenate. 283 97

Treatment of human platelets with 162 nM 12-O-tetradecanoylphorbol-13-acetate (TPA) resulted in phosphorylation of a number of peptides, including myosin heavy chain and the 20-kDa myosin light chain. The site phosphorylated on the myosin heavy chain was localized by two-dimensional peptide mapping to a serine residue(s) in a single major tryptic phosphopeptide. This phosphopeptide co-migrated with a tryptic peptide that was produced following in vitro phosphorylation of platelet myosin heavy chain using protein kinase C. The sites phosphorylated in the 20-kDa myosin light chain in intact cells were analyzed by two-dimensional mapping of tryptic peptides and found to correspond to Ser1 and Ser2 in the turkey gizzard myosin light chain. In vitro phosphorylation of purified human platelet myosin by protein kinase C showed that in addition to Ser1 and Ser2, a third site corresponding to Thr9 in turkey gizzard myosin light chain is also phosphorylated. The phosphorylatable myosin light chains from human platelets were found to consist of two major isoforms present in approximately equal amounts, but differing in their molecular weights and isoelectric points. A third, minor isoform was also visualized by two-dimensional gel electrophoresis. Following treatment with TPA, both the mono- and diphosphorylated forms of each isoform could be visualized, and the sites of phosphorylation were identified. The phosphate content rose from negligible amounts found prior to treatment with TPA to 1.2 mol of phosphate/mol of myosin light chain and 0.7 mol of phosphate/mol of myosin heavy chain following treatment. These results suggest that TPA mediates phosphorylation of both myosin light and heavy chains in intact platelets by activation of protein kinase C.
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PMID:In situ phosphorylation of human platelet myosin heavy and light chains by protein kinase C. 291 6

The cytoskeletons of Y-1 mouse adrenal tumor cells contain a calcium and phospholipid-dependent protein kinase (protein kinase C) that is bound sufficiently tight to resist extraction by 0.5% Triton but not by 1.0% Triton. The enzyme has been purified to near homogeneity from cytoskeleton and cytosol. It shows features typical of this type of kinase, namely a requirement for Ca2+ and phospholipid, stimulation by tumor promoters but not by nontumor-promoting phorbol esters, and inhibition by trifluoperazine. The enzyme shows specificity for four substrates found in the cytoskeleton, namely 80, 33, 20, and 18 kD. The first three substrates are phosphorylated by the enzyme; the fourth is dephosphorylated and is therefore affected by the kinase indirectly. The 80-kD protein is the kinase enzyme itself which is autophosphorylated in vitro and in the cytoskeleton. The 20-kD protein is myosin light chain. The 33- and 18-kD proteins are unidentified. The same substrates were phosphorylated when Y-1 cells were permeabilized with digitonin and incubated with [gamma-32P]ATP and phorbol-12-myristate-13-acetate. Partly purified protein kinase C changes the extent of phosphorylation of the same substrates when added to cytoskeletons previously extracted to remove endogenous protein kinase C. Addition of Ca2+, phosphatidylserine, and phorbol-12-myristate-13-acetate to cytoskeletons, and addition of these three agents plus protein kinase C to extracted cytoskeletons, causes these structures to undergo a rapid and extensive rounding. A similar change is induced in intact cells by addition of phorbol ester. It is concluded that protein kinase C is capable of changing the shape of adrenal cells by an action that involves autophosphorylation and phosphorylation of myosin light chain. This response may in turn be related to the steroidogenic responses to ACTH and cyclic AMP.
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PMID:Isolation and characterization of protein kinase C from Y-1 adrenal cell cytoskeleton. 291 25

Ca2+-dependent myosin phosphorylation by Ca2+/calmodulin-dependent myosin light chain kinase (MLC-kinase) and protein kinase C were studied using selective inhibitors, isoquinolinesulfonamide derivatives. Both protein kinases were potently inhibited by 1-(8-chloro-5-isoquinolinesulfonyl)piperazine (HA-156) and its derivatives. Kinetic analysis indicated that HA-156 inhibited both enzymes competitively with respect to ATP, and Ki values of HA-156 for MLC-kinase and protein kinase C were 7.3 and 7.2 microM, respectively. To clarify molecular mechanisms of the isoquinolinesulfonamides to inhibit the Ca2+-dependent protein kinases, we examined the structure-activity relationships of HA-156 and its derivatives. The dechlorinated analogues, HA-100 and HA-142, markedly decreased the affinity for MLC-kinase, suggesting that the inhibitory effect of isoquinolinesulfonamide derivatives depends upon hydrophobicity of the compounds. There is a good correlation between MLC-kinase inhibition and hydrophobicity determined by reverse phase chromatography. In contrast, HA-140 and HA-142 showed weak inhibition of protein kinase C, suggesting that the electron density of the nitrogen in the isoquinoline ring of the compounds correlates with the potency to inhibit protein kinase C activity. These pairs of isoquinolinesulfonamides will aid in elucidating the biological roles of Ca2+-dependent myosin phosphorylation in intact cells. HA-156 and HA-140 inhibited myosin light chain phosphorylation in platelets exposed to collagen, whereas HA-142 and HA-100 did not, significantly. These isoquinolinesulfonamide derivatives should prove to be useful tools for distinguishing between the biological functions of Ca2+-activated, phospholipid-dependent, and Ca2+/calmodulin-dependent myosin light chain phosphorylation, in vivo.
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PMID:Selective modulation of calcium-dependent myosin phosphorylation by novel protein kinase inhibitors, isoquinolinesulfonamide derivatives. 295 13

Incubation of human washed platelets with 9,11-epithio-11, 12-methano-thromboxane A2 (STA2), a stable analogue of thromboxane A2, caused the activation of protein kinase C and myosin light chain (MLC) kinase to the same extents as those induced by thrombin as judged by measuring the phosphorylation of a 40-kilodalton protein and MLC, respectively. However, STA2 stimulated much less phosphoinositide turnover than thrombin. Furthermore, the doses of STA2 necessary for protein kinase C activation and phosphoinositide turnover were higher than those necessary for MLC kinase activation, although the doses of thrombin necessary for these three reactions were nearly the same. These results suggest that protein kinase C may be activated at the Ca2+ concentrations higher than those required for MLC kinase activation by the action of STA2, presumably due to the inability of this agonist to produce diacylglycerol in an amount enough to increase the affinity of the enzyme for Ca2+.
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PMID:Activation of protein kinase C by the action of 9,11-epithio-11,12-methano-thromboxane A2 (STA2), a stable analogue of thromboxane A2, in human platelets. 301 Apr 91


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