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)

We studied the contractile response to phorbol esters and its relationship to myosin light chain phosphorylation in intact and Triton X-100-skinned porcine carotid preparations. Muscle contraction was activated by phorbol 12,13-dibutyrate (PDBu) and phorbol 12,13-didecanoate (PDD). Dose-dependent contractions to PDBu were obtained both in the intact and skinned preparations. The maximal values of stress in response to PDBu were 1.11 +/- 0.10 X 10(5) N/m2 (n = 7) in the intact and 5.72 +/- 0.59 X 10(4) N/m2 (n = 10) in the skinned muscles. The skinned tissues responded to PDD, which has been shown to activate protein kinase C, but not to the inactive isomer 4 alpha-PDD, thus ruling out nonspecific phorbol effects. The phorbol ester response exhibited a Ca2+ dependence. High stresses in the skinned muscles (5.53 +/- 0.69 X 10(4) N/m2, n = 8) were associated with low values of myosin light chain phosphorylation (0.18 +/- 0.01 mol Pi/mol light chain, n = 8). Thus phorbol esters can contract vascular smooth muscle by a mechanism that is not proportional to myosin light chain phosphorylation and that may involve activation of protein kinase C.
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PMID:Phorbol ester-induced contraction in chemically skinned vascular smooth muscle. 346 15

Protein-kinase activities in rabbit ciliary process tissue were characterized and quantitated using histone, casein, and myosin light chain as substrates. At least four different protein-kinase activities were separated and identified in the supernatant (soluble) and in the particulate fraction using DEAE-cellulose ion-exchange chromatography. Typical activities of the protein kinases in ciliary processes dissected from one eye were as follows: in the supernatant fraction; protein kinase C, 185.0 pmol min-1; cyclic AMP-dependent protein kinase type II, 34.0 pmol min-1; casein kinase type II, 85.1 pmol min-1; protein kinase M, 9.8 pmol min-1: in the particulate fraction; protein kinase C, 55.1 pmol min-1; cyclic AMP-dependent protein kinase type II, 12.5 pmol min-1; casein kinase type II, 13.4 pmol min-1, and protein kinase M, 5.5 pmol min-1. No cyclic GMP-dependent and no calmodulin-dependent protein-kinase activities were detectable using histone, casein or myosin light chain as substrates. The apparent molecular weight of protein kinase C as estimated by exclusion chromatography on a column of Sephadex G-200 was about 90,000. Inhibitory and stimulatory effects of recently synthesized isoquinolinesulfonamide derivatives (H-7 and H-8), heparin, and polylysine were studied in ciliary process protein kinases. H-7 and H-8 were potent inhibitors of cyclic AMP-dependent protein kinase, protein kinase C and protein kinase M, (IC50 less than 10 microM) but had no inhibitory effects on casein kinase. Heparin at 4 micrograms ml-1 inhibited casein kinase activity almost completely without affecting cyclic AMP-dependent or protein kinase C activities. Poly D- or L-lysine were both found to activate (approximately double) casein kinase activity at 40 micrograms ml-1, but did not significantly activate cyclic AMP-dependent protein kinase or protein kinase C. These results provide basic information on the protein kinase enzymes in the ciliary process and show that protein kinase C is the major kinase in this tissue. This suggests a possible role of the Ca2+ and protein kinase C system in transport functions of ciliary processes and in the regulatory mechanism of aqueous-humor formation additional to the already established importance of the cyclic AMP-dependent protein-kinase enzyme.
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PMID:Analysis of protein kinase activities in rabbit ciliary processes: identification and characterization using exogenous substrates. 347 66

Phorbol dibutyrate (PDB) is an activator of protein kinase C and has been observed to cause a slow developing contraction in vascular smooth muscle. The mechanism of phorbol ester-induced contraction is unknown. We studied the Ca++-dependence of, and the degree of myosin light chain phosphorylation (MLC-P), during PDB-induced contractions in rabbit aortic rings. PDB elicited concentration-dependent contractions (3 X 10(-8) to 10(-6) M) in rabbit aortic rings incubated in normal (1.6 mM Ca++) physiologic salt solution (PSS). Addition of the Ca++-channel blocker nifedipine (0.1 microM) to PSS or removal or Ca++ from PSS significantly reduced the contractile responses to PDB. Depletion of Ca++ by repeated washes in O Ca++-PSS containing 10(-3) M ethylene glycol bis(beta-aminoethyl ether)-N,N'-tetraacetic acid reduced, but did not eliminate, the responses to PDB. In PSS, PDB significantly increased the fraction of phosphorylated MLC/total MLC to 0.33 from a resting value of 0.20. Ca++ depletion reduced the resting fraction (MLC-P/MLC) to 0.14. PDB-stimulated contractions in Ca++-depleted tissues occurred in the absence of significant increases in MLC-P. Sodium nitroprusside partially relaxed PDB-induced contractions by approximately 50% whether elicited in the presence of 1.6 mM Ca++ or after Ca++ depletion. In both cases relaxation occurred in the absence of statistically significant decreases in MLC phosphorylation. Ca++-dependent MLC phosphorylation may account for a component of the PDB contractile response in rabbit aorta. Studies in the absence of Ca++ suggest that PDB may activate contraction without concomitant MLC-P.
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PMID:Calcium dependence of phorbol 12,13-dibutyrate-induced force and myosin light chain phosphorylation in arterial smooth muscle. 348 Mar 53

Rat heart plasma membranes contain a calcium-dependent protein kinase which phosphorylates endogenous protein substrates as well as added histones. The major endogenous protein phosphorylated is of 17 kDa on SDS-polyacrylamide gel electrophoresis. Proteins of 85 kDa and 60 kDa were also phosphorylated. Treatment of a rat heart homogenate with the phorbol ester 12-O-tetradecanoylphorbol 13-acetate increased the recovery of kinase activity in the sarcolemmal membranes by up to 10-fold. The activity in such membranes was no longer calcium dependent. Although several histones were effective substrates for the enzyme, myosin light chain and phosvitin were not phosphorylated. These membranes contain a very active ATP hydrolysing activity which necessitated very brief incubation times to avoid loss of substrate. The membranes also contain cyclic AMP dependent protein kinase activity which is not active unless cyclic AMP is added to the incubations. The calcium dependent endogenous kinase, which is not inhibited by the heat stable inhibitor protein of cyclic AMP-dependent kinase, or by trifluoperazine, has several properties in common with protein kinase C. Preincubation of the sarcolemmal membranes with a high concentration of insulin caused inhibition of the phosphorylation of the endogenous 17 kDa and 85 kDa bands. There was no effect on the phosphorylation of the 60 kDa peptide. This effect of insulin was specific for the hormone and required preincubation of the hormone with the membranes for 20 min.
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PMID:Phosphorylation of endogenous and exogenous peptides by rat heart sarcolemma. 354 2

To clarify the role of protein kinase C in the mechanical response, the effects of exogenous protein kinase C and its cofactors were investigated on skinned smooth muscle preparations of the rabbit mesenteric artery. Addition of protein kinase C with 12-O-tetradecanoylphorbol-13-acetate (TPA) and phosphatidylserine (PS) caused slow inactivation of a maximal Ca2+ contraction of the muscle fiber and correspondingly increased protein kinase C phosphorylation of myosin light chain. Neither protein kinase C nor enzyme cofactors (PS and TPA) produced relaxation of this tissue and all three components caused significant relaxation. Furthermore, when the muscle fiber was activated by Ca2+-insensitive fragment of MLC-kinase, addition of protein kinase C with PS and TPA decreased the tension and increased protein kinase C phosphorylation of myosin light chain. This evidence suggests that protein kinase C phosphorylation of myosin light chain may play an inhibitory role in the contraction of vascular smooth muscle.
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PMID:Purified rabbit brain protein kinase C relaxes skinned vascular smooth muscle and phosphorylates myosin light chain. 357 93

We have determined the sequence of the sites phosphorylated by protein kinase C in the turkey gizzard smooth muscle myosin light chain. In contrast to previous work (Nishikawa, M., Hidaka, H., and Adelstein, R. S. (1983) J. Biol. Chem. 258, 14069-14072), two-dimensional tryptic peptide maps of both heavy meromyosin and the isolated myosin light chain showed two major phosphopeptides, one containing phosphoserine and the other phosphothreonine. We have purified the succinylated tryptic phosphopeptides using reverse phase and DEAE high pressure liquid chromatography. The serine-containing peptide, residues 1-4 (Ac-SSKR), is the NH2-terminal peptide. The phosphorylated serine residue may be either serine 1 or serine 2. The threonine-containing peptide, residues 5-16, yielded the sequence AKAKTTKKRPQR. Analysis of the yields and radioactivity of the products from automated Edman degradation showed that threonine 9 is the phosphorylation site.
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PMID:Sequence of the sites phosphorylated by protein kinase C in the smooth muscle myosin light chain. 358 31

The role of substrate in influencing the cofactor requirements of the phospholipid- and Ca2+-dependent protein kinase C (PKC) was investigated by using several substrates. All of the substrates tested, including histone, troponin I, myosin light chain, protamine, poly(arginine, serine) (PAS), poly(lysine, serine) (PLS), and myelin basic protein (MBP), were found to interact with and aggregate phospholipid vesicles as well as phosphatidylserine (PS)-Triton mixed micelles. Phosphorylation of these different substrates by PKC indicated the presence of three distinct substrate categories: substrates such as protamine requiring no cofactors; substrates such as PLS, PAS, and MBP requiring only the presence of phospholipid; and substrates such as histone, myosin light chain, and troponin I requiring the presence of Ca2+ and phospholipid. Diacylglycerol was a major cofactor only with category C substrates. These different requirements correlated with the interaction of the substrate with phospholipid and/or enzyme. The substrates in category A interacted strongly with and aggregated PKC in a binary mixture. In the absence of Ca2+, PKC bound to substrates of category B directly but not to substrates in category C. Thus, substrate-enzyme binding eliminated the Ca2+ requirement of phosphorylation, and aggregation of substrate-enzyme complex eliminated the phospholipid requirements as well. Substrate-phospholipid interaction and substrate phosphorylation were inhibited by increasing salt concentrations, but the amount needed depended upon the substrate. Loss of PKC activity appeared to coincide with loss of substrate-PS aggregation while dissociation of PKC from the membranes required much higher salt concentrations. Poly(L-lysine) and poly(L-arginine), two potent inhibitors of PKC, also showed substrate-dependent inhibition characteristics.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Role of substrate in imparting calcium and phospholipid requirements to protein kinase C activation. 359 3

Phorbol esters such as phorbol 12, 13-dibutyrate (PdBu; 40 to 200 nmol/L) or 12-O-tetradecanoyl phorbol 13-acetate (20 to 80 nmol/L) added to aspirinized platelet-rich plasma (PRP) 5 to 15 seconds prior to various platelet stimuli (epinephrine, ADP, prostaglandin endoperoxide analog U44069, collagen, PAF, or vasopressin) potentiate the rate and extent of aggregation and ATP secretion induced by those agonists. Platelet aggregation, but not secretion, is potentiated at low concentrations of agonists; platelet secretion is potentiated at higher concentrations of the platelet stimuli. Potentiation of platelet responses was also observed when the preincubation time with PdBu was extended to 12 minutes and also occurred in washed platelets. The potentiating effect of phorbol esters is not mediated by formation of arachidonate metabolites or by released ADP. The sensitizing effect of PdBu on platelet aggregation induced by epinephrine is unique, since in contrast to the other platelet stimuli it is also found at maximal concentrations of epinephrine and does not diminish with prolonged preincubation of platelets with PdBu. Activation of protein kinase C ranges from 20% to 80% over control after 1 to 10 minutes of platelet pretreatment with PdBu but dramatically increases after subsequent addition of a stimulus such as vasopressin. In contrast, agonist-induced myosin light chain phosphorylation is reduced after platelet pretreatment with PdBu. The results indicate that protein kinase C activation enhances platelet aggregation and dense granule secretion triggered by physiologic stimuli, although it desensitizes agonist-induced myosin light chain phosphorylation.
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PMID:Phorbol esters sensitize platelets to activation by physiological agonists. 366 38

Platelet shape change induced by ADP is relatively independent of external pH over the range 6-7. If the chloride ion in the buffer is replaced by weak acids, however, shape change is rapidly and reversibly inhibited as a function of lowered pH (92% at pH 6.0). This inhibition is correlated with lowered internal pH caused by the weak acids, as measured by the 5,5-dimethyloxazolidine 2,4-dione technique. Shape change was 50% inhibited at internal pH 6.4 when 50 mM NaCl was replaced by propionate (PR). When platelets were stimulated with ADP 10-20 s after addition of PR to a final pH of 6 (PR6), both myosin light chain (MLC) phosphorylation and myosin and actin association with the cytoskeleton were reduced in correlation with the inhibition of shape change. But when ADP was added 30 s after PR6, the MLC phosphorylation was essentially the same in PR or in chloride, although shape change and myosin and actin association with the cytoskeleton remained inhibited. This was shown to be due mainly to endogenous phosphorylation of MLC. On return to neutral pH, platelets in PR immediately changed shape and myosin and actin became associated with the cytoskeleton. Two-dimensional tryptic peptides of MLC showed two major spots after PR6 treatment, indicating that both the MLC kinase site and the protein kinase C sites were phosphorylated. The results show that increased internal pH is not required for shape change, although it may affect the rate. In PR6, as after phorbol esters, MLC phosphorylation can be uncoupled from shape change. The association of myosin and actin with the cytoskeleton is closely correlated with shape change, suggesting that shape change requires the active interaction of these contractile proteins.
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PMID:Lowering pH in blood platelets dissociates myosin phosphorylation from shape change and myosin association with the cytoskeleton. 366 96

Naphthalenesulfonamide derivatives were used to study the mechanism of regulation of Ca2+-dependent smooth muscle myosin light chain phosphorylation catalyzed by Ca2+-activated, phospholipid-dependent protein kinase (protein kinase C) and myosin light chain kinase. Derivatives such as N-(6-phenylhexyl)-5-chloro-1-naphthalenesulfonamide (SC-9), with a hydrophobic residue at the end of a hydrocarbon chain, stimulated Ca2+-activated, phospholipid-dependent myosin light chain phosphorylation in a Ca2+-dependent fashion. There was no significant effect of these compounds on Ca2+-calmodulin (CaM) dependent myosin light chain phosphorylation. On the other hand, derivatives with the guanidino or amino residue at the same position had an inhibitory effect on both Ca2+-phospholipid- and Ca2+-CaM-dependent myosin light chain phosphorylation. These observations suggest that activation of Ca2+-activated, phospholipid-dependent myosin light chain phosphorylation by naphthalenesulfonamide derivatives depends on the chemical structure at the end of hydrocarbon chain of each compound. SC-9 was similar to phosphatidylserine with regard to activation, and the apparent Km values for Ca2+ of the enzyme with this compound and phosphatidylserine were 40 microM and 80 microM, respectively. Kinetic analysis indicated that 12-O-tetradecanoylphorbol 13-acetate increased the affinity of the enzyme with SC-9 for calcium ion. However, kinetic constants revealed that the Km value of protein kinase C activated by SC-9 for substrate myosin light chain was 5.8 microM, that is, about 10 times lower than that of the enzyme with phosphatidylserine, and that the Vmax value with SC-9 was 0.13 nmol X min-1, that is, 3-fold smaller than that seen with phosphatidylserine.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:N-(6-phenylhexyl)-5-chloro-1-naphthalenesulfonamide, a novel activator of protein kinase C. 375 33


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