Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.1 (protein kinase)
 81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Protein kinase C was isolated from bovine heart by chromatography on DEAE-Sephacel, phenyl-Sepharose, poly(L-lysine) agarose, and hydroxylapatite. Estimates based upon enzyme recovery indicate 10-20 nmol/min of protein kinase C activity per gram of bovine ventricular myocardium. Hydroxylapatite column chromatography resolved the preparation into two peaks of calcium- and phospholipid-dependent protein kinase activity. By Western blot analysis, peaks 1 and 2 contained subtypes II (beta 2) and III (alpha), respectively. No cross-reactivity was observed, indicating that separation was complete. Type III, the major subtype detected, was subsequently purified to apparent homogeneity by chromatography on phosphatidylserine (PS) acrylamide. Type II activity could not be recovered following phosphatidylserine affinity chromatography. Phospho amino acid analysis showed that type III autophosphorylated at serine residues, whereas type II autophosphorylated at both serine and threonine residues. Among the various phospholipids tested for activity, PS was the most effective. Both subtypes were activated by 1-stearoyl-2-arachidonylglycerol (SAG) in the presence of phosphatidylserine and calcium. Activation of both subtypes occurred at calcium concentrations of less than 1 microM. In addition to several similarities, these two subtypes showed differences in activation and kinetic properties: type II was activated by cardiolipin, 1,2-and 1,3-dioleoylglycerol, and both cis- and trans-unsaturated fatty acids. Type III was activated to a lesser degree by cardiolipin and showed no response to 1,3-dioleoylglycerol. Type III was activated to a greater extent by 1,2-diacylglycerols and by cis-unsaturated fatty acids. In the presence of PS and SAG, type II exhibited substantial activity in the presence of 1 mM ethylene glycol bis(beta-aminoethyl ether)-N,N,N',N'-tetraacetic acid (EGTA) without added calcium. Activation of types II and III by unsaturated fatty acids was independent of phospholipid and showed a lower apparent calcium affinity than that observed for activation by phosphatidylserine. These results show that cardiac protein kinase C subtypes II and III were functionally distinguishable and may play unique roles in the regulation of cardiac function.
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PMID:Isolation and characterization of the calcium- and phospholipid-dependent protein kinase (protein kinase C) subtypes from bovine heart. 202 25

Stimulation of cultured hypothalamic slices with PRL causes a rapid translocation of a Ca2+/phospholipid dependent protein kinase from the cytosol to the membrane fraction. The translocation of PKC from the cytosol to the membrane occurred at physiological concentrations of PRL with a maximal response occurring at 10(-10) M. At concentrations above this, there was less PKC activity translocated from the cytosol to the membrane. When injected into the medial preoptic area of the hypothalamus, PRL resulted in a similar translocation of PKC activity. These data clearly indicate that PRL can activate PKC in the rat hypothalamus, and suggest that PKC may be one of the transmembrane signaling mechanisms involved in the regulation of brain function by prolactin.
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PMID:Prolactin stimulation of protein kinase C activity in the rat hypothalamus. 202 80

Heparin was found to stimulate the phosphorylation of histone H1 but not protamine sulfate catalyzed by Ca2+/phospholipid-dependent protein kinase (protein kinase C or PKC). The effect of heparin on histone H1 phosphorylation appeared to be due to an increase in phosphatidylserine affinity for PKC activation in the presence of heparin. This effect of heparin was abolished when trypsinized, cofactor-independent, PKC was employed to phosphorylate histone H1. These studies suggest that heparin acts at the regulatory domain of PKC, and emphasize the importance of the negative charge in influencing the accessibility of the substrate to PKC action.
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PMID:Modulation of cofactor requirement for the activation of protein kinase C by heparin. Possible effect at the regulatory domain. 203 60

Prothrombin is a major constituent of the blood coagulation cascade and requires phospholipid and Ca2+ for its activation. We have found that phospholipid/Ca(2+)-dependent protein kinase (Protein kinase C) phosphorylates prothrombin and the associated apparent Km value for prothrombin (0.86 microM) is comparable to the Km value reported for most known substrates of protein kinase C. A 2-dimension separation analysis revealed that serine residue was apparently phosphorylated by PKC. The phosphorylation was inhibited by such phosphatidylserine- and/or Ca2+ competitive protein kinase C inhibitors as trifluoperazine, palmitoylcarnitine and gossypol. These results suggest that protein kinase C phosphorylation was involved in the regulation of blood coagulation.
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PMID:Phosphorylation of coagulation factor II by phospholipid/Ca(2+)-dependent protein kinase (protein kinase C). 203 97

Estradiol-17 beta (E2) predetermined protein phosphorylation systems have been identified recently in midpregnant rat corpus luteum. Major type protein kinase activities in these systems were explored here using as probes protein kinase inhibitors. Luteal nuclear, mitochondrial, microsomal and cytosolic fractions were obtained from rats hysterectomized and hypophysectomized on day 12 of pregnancy and then treated for 72 h with E2. In vitro phosphate transfer from [gamma-32P]ATP was monitored by SDS-PAGE followed by autoradiography. Polymyxin B (PMB), 1-200 microM, a PKC inhibitor, completely blocked, in a dose dependent manner, the Ca2+ phospholipid (PL) stimulated radiolabeling of nuclear fraction Mr 79,000 substrate(s) as expected. Similarly, the calmodulin (CaM) antagonist compound 48/80, 1-20 micrograms/ml, inhibited the Ca2+/CaM-dependent phosphorylation of the microsomal fraction Mr 60,000 and Mr 56,000 proteins. The Ca2+ PL-enhanced labeling of mitochondrial fraction Mr 76,000 substrate(s) was only partially susceptible to inhibition by PMB or compound 48/80. Studies of microsomal fraction phosphoprotein bands not stimulated by added cofactors indicated that the radiolabeling of Mr 75,000 protein(s) was partially blocked by compound 48/80 but not by PMB. Phosphate transfer to Mr 41,000 protein(s) was inhibited by the cAMP-dependent kinase protein inhibitor (PKI), while the phosphorylation of Mr 31,000 protein(s) was refractory to all inhibitors employed here. Surprisingly, regardless of hormonal pretreatment, PMB and compound 48/80 activated in every subcellular fraction the cofactor independent appearance of at least one phosphoprotein band, between Mr 87,000-99,000. This novel observation should be instrumental in understanding the actions of these compounds towards living cells.
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PMID:Inhibition and stimulation of rat luteal protein phosphorylation by protein kinase effectors. 204 6

This report examines a possible mechanism of mouse lung tumor prophylaxis by glucocorticoids (GC). Adrenalectomy (Ax) increased, and corticosterone replacement decreased, lung tumor multiplicity when treatment was begun before administration of the carcinogen, urethan. Ax increased the 3H-thymidine labeling index of alveolar epithelial cells. Tumor multiplicity was also enhanced when urethan was administered during the period of compensatory hyperplasia that occurred in response to lung injury induced by methylcylopentadienyl manganese tricarbonyl. Thus, carcinogen-induced tumor development was amplified by stimulation of division of the target cell population. GC regulation of alveolar epithelial cell proliferation, and hence tumor susceptibility, may be mediated by the Ca++/phospholipid-dependent protein kinase (PKC).The tumor-resistant strain, C57BL/6J, has greater adrenal corticosterone content, higher epithelial cell PKC activity, and lower alveolar epithelial cell proliferation than the tumor-susceptible strain, A/J. In vitro, GC inhibit proliferation of a lung epithelial-derived cell line and increase PKC activity in that cell line. Thus, we hypothesize that GC protect against lung tumor development by increasing PKC content in the epithelial cells from which lung tumors arise; increased intracellular PKC results in decreased epithelial proliferation, and reduces the probability of induction of tumorigenesis by urethan.
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PMID:Mechanisms of glucocorticoid involvement in mouse lung tumorigenesis. 205 36

To determine the contribution of phosphate acceptor substrate to the pattern of activity of calcium-dependent, phospholipid-sensitive protein kinase (protein kinase C, PKC), we assayed cytosolic and particulate PKC activity for histone, troponin, myosin light chain (MLC), and endogenous cellular proteins in human neutrophils stimulated with phorbol myristate acetate (PMA), the chemotactic peptide n-formyl-methionyl-leucyl-phenylalanine (FMLP) and synergistic stimulation with both agonists. In general, phosphotransferase activity in neutrophil subfractions toward troponin and endogenous proteins paralleled that toward histone, but MLC was a poor substrate for PKC and the pattern of phosphotransferase activity differed from that seen with the other substrates. Furthermore, the phosphorylation of endogenous neutrophil cytosolic proteins increased significantly after stimulation with FMLP, suggesting an endogenous cytosolic substrate(s) which increased in concentration following stimulation. We conclude that histone is a useful phosphate acceptor for study of PKC activity in human neutrophils, but substrate variability occurs and may influence interpretation of results in assays of PKC activity.
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PMID:Substrate dependence of human neutrophil protein kinase C. 205 46

We recently demonstrated that 2,6,diamino-N-[( 1-(oxotridecyl)-2-piperidinyl]methyl)-hexanamide (NPC 15437) is a selective inhibitor of PKC interacting at the regulatory domain of the enzyme. To further investigate the interaction of NPC 15437 with PKC we expressed a series of cDNAs encoding mutant PKC molecules in COS7 cells. NPC 15437 had no effect on the protein kinase activity of mutants lacking the N-terminal region of the C1 domain. Further, NPC 15437 was a competitive inhibitor of the activation of PKC alpha by phorbol ester and attenuated the binding of phorbol ester to the enzyme in intact cells. The present study demonstrates that mutant enzyme constructs can be used to localize the site of interaction of NPC 15437 with PKC to residues 12-42, which encodes the pseudosubstrate binding domain and part of the first cysteine-rich repeat sequence.
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PMID:NPC 15437 interacts with the C1 domain of protein kinase C. An analysis using mutant PKC constructs. 206 75

A calcium-sensitive, phospholipid-dependent protein kinase (protein kinase C) and its three isozymes were purified from rat heart cytosolic fractions utilizing a rapid purification method. The purified protein kinase C enzyme showed a single polypeptide band of 80 KDa on SDS-polyacrylamide gel electrophoresis, and was totally dependent on the presence of Ca2+ and phospholipid for activity. Diacylglycerol was also found to stimulate enzymatic activity. Autophosphorylation of the purified PKC showed an 80 KDa polypeptide. The identity of the purified protein was also verified with monoclonal antibodies specific for PKC. Further fractionation of the purified PKC on a hydroxylapatite column yielded three distinct peaks of enzyme activity, corresponding to type I, II and III based on similar chromatographic behaviour as the rat brain enzyme. All three forms were entirely Ca2+ and phosphatidylserine dependent. Type II was found to be the most abundant. Type I was found to be highly unstable. PKC activity studies demonstrate that types II and III isozymic forms are different with respect to their sensitivity to Ca2+.
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PMID:Purification and characterization of protein kinase C isozymes from rat heart. 207 92

Myristate (C14:0) was found to significantly activate partially purified rat brain Ca(2+)- and phospholipid-dependent protein kinase (PKC). The Ka value, the concentration needed for half maximum activation, for C14:0 in the presence of 1 microM Ca2+ and 20 microM phosphatidylserine (PS) was 20 microM. This activation required Ca2+ and acidic phospholipid and was associated with a decreased Ka for Ca2+ of the enzyme to 10 microM in an analogous fashion as dioleoylglycerol (DO) or phorbol myristate acetate (PMA). The phospholipid requirement for the activation was concentration dependent and was inhibited by 1-(5-isoquinolinesulfonyl)-methylpiperazine dihydrochloride (H-7), a inhibitor of this enzyme. The concentration of H-7 required for half inhibition of the enzyme was about 15 microM and maximum inhibition was about 75%. The concentration profile of cytoplasmic proteins phosphorylated by C14:0-activated PKC was similar to that by PMA-activated PKC. The 47 kDa protein of guinea pig neutrophil was also phosphorylated by the C14:0-activated PKC. It is further discussed whether PKC can function as signal transduction for stimulus-mediated generation of superoxide in neutrophils.
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PMID:Activation of protein kinase C by myristate and its requirements of Ca2+ and phospholipid. 210 33


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