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)

Phosphorylation of myosin light chain (LC) isoforms in arterial actomyosin can be induced by endogenous kinases upon addition of Mg2+ and ATP. The extent of phosphorylation in the presence of 2 mM ethylene glycol bis(beta-aminoethyl ether)N,N'-tetraacetic acid (EGTA), 0.2 mM Ca2+, or 0.2 mM Ca2+ plus calmodulin is 1.6, 2.1, and 2.3 mol phosphate/mol LC, respectively. Two-dimensional gel electrophoresis of actomyosin shows that the LC isoforms may be mono-, di-, and triphosphorylated. Tryptic phosphopeptide mapping of LC indicates that the radioactive phosphate is distributed to six peptides referred to as A through F. Phosphoamino acid analyses and the phosphopeptide maps of isolated LC, phosphorylated by either purified myosin light chain kinase or protein kinase C, reveal that myosin light chain kinase phosphorylates a serine residue in peptides A and B, and threonine plus serine residues in peptides C and D. Peptides E and F are phosphorylated by protein kinase C in serine and threonine residues, respectively. In actomyosin, with EGTA, phosphorylation of peptides E and F proceeds while phosphorylation of peptides A, B, C, and D is inhibited. Ca2+ and calmodulin enhance the phosphorylation of peptides A, B, C, and D, while phosphorylation of peptides E and F is decreased. In isolated LC, myosin light chain kinase preferentially phosphorylates the peptides A and B over C and D. Phosphorylation of peptides E and F in LC by protein kinase C promotes additional phosphorylation of peptides C and D by myosin light chain kinase, whereas phosphorylation of peptides A and B is diminished. The present data suggest that the phosphorylation of distinct sites in arterial myosin light chain by myosin light chain kinase and protein kinase C is interrelated.
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PMID:Phosphorylation of the 20,000-Da myosin light chain isoforms of arterial smooth muscle by myosin light chain kinase and protein kinase C. 314 63

CP-46,665-1, an antineoplastic lipoidal amine, was found to inhibit phospholipid/Ca2+-dependent protein kinase (PL/Ca-PK, or protein kinase C), with an IC50 (concentration causing a 50% inhibition) of 10 microM. Its inhibition of the enzyme was reversed by phosphatidylserine, but not by Ca2+. The agent also inhibited the enzyme activity which was further augmented by 12-0-tetradecanoylphorbol-13-acetate (TPA), mezerein or diolein. Phosphorylation of endogenous proteins from HL-60 cells by the enzyme, with or without being further augmented by TPA, was inhibited by CP-46,665-1 as well as by alkyllysophospholipid (an antineoplastic agent). CP-46,665-1, while without effect on cyclic AMP-dependent protein kinase, also inhibited myosin light chain kinase (a calmodulin/Ca2+-dependent protein kinase). The present findings suggest that inhibition of the Ca2+-effector enzymes may be related in part to the antimetastatic activity of the lipoidal amine.
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PMID:Inhibition of phospholipid/Ca2+-dependent protein kinase and phosphorylation of leukemic cell proteins by CP-46,665-1, a novel antineoplastic lipoidal amine. 315 97

Protein kinase C incorporates phosphate into two sites of myosin light chain kinase (MLC-kinase) in the absence of calmodulin. Phosphorylation is all but abolished in the presence of Ca2+ and calmodulin, suggesting that both sites of phosphorylation are close to the calmodulin binding site. The phosphorylation of MLC-kinase results in an approximately 10-fold increase in the dissociation constant of MLC-kinase for calmodulin. Following phosphorylation (2 mol/mol of enzyme) of MLC-kinase by protein kinase C, an additional 2 mol of phosphate can be incorporated into the MLC-kinase apoenzyme by the cAMP-dependent protein kinase. Different maps of phosphopeptides were obtained by tryptic hydrolysis from MLC-kinase preparations phosphorylated by each kinase. The phosphorylation sites for the cAMP-dependent kinase were located in a fragment of approximately 25,000 daltons. In contrast the phosphorylation sites for protein kinase C are found in a much smaller tryptic peptide. These results suggest that the phosphorylation sites on MLC-kinase are different for protein kinase C and for cAMP-dependent protein kinase. However, phosphorylation in both regions results in a reduced affinity for calmodulin.
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PMID:Phosphorylation of smooth muscle myosin light chain kinase by Ca2+-activated, phospholipid-dependent protein kinase. 315 81

Smooth muscle myosin light chain kinase is phosphorylated in vitro by protein kinase C purified from human platelets. When myosin light chain kinase which has calmodulin bound is phosphorylated by protein kinase C, 0.8-1.1 mol of phosphate is incorporated per mol of myosin light chain kinase with no effect on its enzyme activity. Phosphorylation of myosin light chain kinase with no calmodulin bound results in the incorporation of 2-2.4 mol of phosphate and significantly decreases the rate of myosin light chain kinase activity. The decrease in myosin light chain kinase activity is due to a 3.3-fold increase in the concentration of calmodulin necessary for the half-maximal activation of myosin light chain kinase. The sites phosphorylated by protein kinase C and the catalytic subunit of cAMP-dependent protein kinase were compared by two-dimensional peptide mapping following extensive tryptic digestion of phosphorylated myosin light chain kinase. The single site phosphorylated by protein kinase C when calmodulin is bound to myosin light chain kinase (site 3) is different from that phosphorylated by the catalytic subunit of cAMP-dependent protein kinase (site 1). The additional site that is phosphorylated by protein kinase C when calmodulin is not bound appears to be the same site phosphorylated by the catalytic subunit of cAMP-dependent protein kinase (site 2). These studies confirm the important role of site 2 in binding calmodulin to myosin light chain kinase. Sequential studies using both protein kinase C and the catalytic subunit of cAMP-dependent protein kinase suggest that the phosphorylation of site 1 also plays a part in decreasing the affinity of myosin light chain kinase for calmodulin.
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PMID:Phosphorylation of smooth muscle myosin light chain kinase by protein kinase C. Comparative study of the phosphorylated sites. 316 Jun 94

Smooth muscle myosin from chicken gizzard is phosphorylated by Ca2+-activated phospholipid-dependent protein kinase, protein kinase C, as well as by Ca2+/calmodulin-dependent kinase, myosin light chain kinase (Endo, T., Naka, M., and Hidaka, H. (1982) Biochem. Biophys. Res. Commun. 105, 942-948). We have now demonstrated the effect of phosphorylation by protein kinase C on the smooth muscle myosin molecule. In glycerol/urea polyacrylamide gel electrophoresis the 20,000-dalton light chain phosphorylated by protein kinase C co-migrated with that phosphorylated by myosin light chain kinase. Moreover, the light chain phosphorylated by both kinases migrated more rapidly than did the light chain phosphorylated by either myosin light chain kinase or protein kinase C alone. Myosin phosphorylated by protein kinase C formed a bent 10 S monomer while that phosphorylated by myosin light chain kinase was an unfolded and extended 6 S monomer in the presence of 0.2 M KCl. In addition, myosin phosphorylated by kinases had a sedimentation velocity of 7.3 S, thereby suggesting that the myosin was partially unfolded. The unfolded myosin was visualized electron microscopically. The fraction in the looped form was higher when for myosin phosphorylated by both kinases higher than for that phosphorylated by light chain kinase alone. Therefore, phosphorylation by protein kinase C does not lead to the change in myosin conformation seen with myosin light chain kinase.
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PMID:Conformational studies of myosin phosphorylated by protein kinase C. 316 Jul 4

The inhibitory potencies of bioflavonoids on various tyrosine protein kinases and serine/threonine protein kinases were investigated. The phosphotransferase activity of an oncogene product, pp130fps, and a growth factor receptor, insulin receptor, were inhibited by myricetin, a derivative of quercetin. However, tyrosine kinase activity in the particulate fraction from human platelets (PM-TPK) was resistant to myricetin. Apparent Ki values of myricetin for tyrosine protein kinases of pp130fps and insulin receptor were 1.8 and 2.6 microM, respectively. The Ki values for serine/threonine kinase activities of myosin light chain kinase (MLC-kinase), casein kinase I, casein kinase II, cAMP-dependent protein kinase, and protein kinase C were 1.7 microM, 9.0 microM, 0.6 microM, 27.5 microM, and 12.1 microM, respectively. Lineweaver-Burk plots revealed that myricetin competitively inhibits pp130fps tyrosine kinase, myosin light chain kinase, casein kinase I and II with ATP, but does not inhibit other protein kinases. Since myricetin is a hydroxylated derivative of quercetin, the inhibitory effects of a series of seven flavonoids with various numbers of hydroxy residues were examined. Structure activity studies exhibited that the inhibitory potencies of the flavonoids for tyrosine kinases of pp130fps and insulin receptor correlated with the number of hydroxy residues on the flavone rings (gamma = 0.974 and 0.926, respectively), whereas the hydroxylation influenced to a lesser extent the inhibitory potencies for serine/threonine protein kinase. The hydroxy residues at position 3' and 5' did not affect the activities of cAMP-dependent protein kinase, and protein kinase C, and the hydroxylation at position 5' is detrimental for the inhibition of MLC-kinase, and casein kinase I and II. Thus, flavonoids may be useful tools to elucidate the active site of tyrosine and serine/threonine protein kinases.
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PMID:Differential effects of flavonoids as inhibitors of tyrosine protein kinases and serine/threonine protein kinases. 316 98

Purified smooth muscle myosin light chain can be phosphorylated at multiple sites by myosin light chain kinase and protein kinase C. We have determined the sites phosphorylated on myosin light chain in intact bovine tracheal smooth muscle. Stimulation with 10 microM carbachol resulted in 66 +/- 5% monophosphorylated and 11 +/- 2% diphosphorylated myosin light chain after 1 min, and 47 +/- 4% monophosphorylated and 5 +/- 2% diphosphorylated myosin light chain after 30 min. Myosin heavy chain contained 0.06 +/- 0.01 mol of phosphate/mol of protein which did not change with carbachol. At both 1 and 30 min the monophosphorylated myosin light chain contained only phosphoserine whereas the diphosphorylated myosin light chain contained both phosphoserine and phosphothreonine. Two-dimensional peptide mapping of tryptic digests of monophosphorylated and diphosphorylated myosin light chain obtained from carbachol-stimulated tissue was similar to the peptide maps of purified light chain monophosphorylated and diphosphorylated, respectively, by myosin light chain kinase; these maps were distinct from the map obtained with tracheal light chain phosphorylated by protein kinase C. Phosphorylation of tracheal smooth muscle myosin light chain by myosin light chain kinase yields the tryptic phosphopeptide ATSNVFAMFDQSQIQEFK with S the phosphoserine in the monophosphorylated myosin light chain and TS the phosphotreonine and phosphoserine in the diphosphorylated myosin light chain. Thus, stimulation of tracheal smooth muscle with a high concentration of carbachol results in formation of both monophosphorylated and diphosphorylated myosin light chain although the amount of diphosphorylated light chain is substantially less than monophosphorylated light chain. In the intact muscle, myosin light chain is phosphorylated at sites corresponding to myosin light chain kinase phosphorylation.
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PMID:Sites phosphorylated in myosin light chain in contracting smooth muscle. 319 18

Aminoglycosides such as neomycin are commonly prescribed antibiotics; however, there is associated serious damage to the kidney. We examined the effect of aminoglycoside antibiotics on renal protein phosphorylation and found that neomycin selectively inhibited Ca++-activated, phospholipid-dependent phosphorylation of 88-kDa protein in cell lysates of the rabbit kidney. Fifty percent inhibition of phosphorylation of this protein occurred with 5 X 10(-5) to 1 X 10(-4) M neomycin. In living PtK2 cells, neomycin dose-dependently inhibited 12-O-tetradecanoyl-phorbol-13-acetate-induced phosphorylation of 88 K Da protein. This drug also inhibited phosphorylation of exogenous protein catalyzed by protein kinase C, isolated from rabbit kidney in vitro. In contrast, neomycin had little or no inhibitory effect on cyclic GMP-dependent protein kinase, cyclic AMP-dependent protein kinase, casein kinase I, casein kinase II and Ca++-calmodulin-dependent myosin light chain kinase. Whereas activity of protein kinase C was inhibited 65% by neomycin (0.1 mM) at pH 5 to 7, inhibition decreases to 33% at pH 8 and to zero at pH 9. The potencies of a series of aminoglycoside antibiotics to inhibit the kinase agreed well with number of ionizable amino groups of compounds (gamma = 0.99) and this also approximates their known nephrotoxic potential; amikacin less than or equal to kanamycin less than gentamycin less than or equal to tobramycin less than neomycin. As aminoglycoside antibiotics present in the kidney after administration of toxicological doses (10(-2) M) will inhibit the effects of protein kinase C, the aminoglycoside antibiotics-induced nephrotoxicity is discussed in relation to inhibition of intracellular protein kinase C.
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PMID:Inhibitory effects of aminoglycosides on renal protein phosphorylation by protein kinase C. 333 10

Defensins, human neutrophil peptide (HNP) antibiotics, potently inhibited phospholipid/Ca2+ protein kinase (protein kinase C, PKC) and phosphorylation of endogenous proteins from rat brains catalyzed by the enzyme. Of the three defensin peptides, HNP-2 appeared to be more potent than HNP-1 and HNP-3. Kinetic studies indicated that defensins inhibited PKC noncompetitively with respect to phosphatidylserine (a phospholipid cofactor), Ca2+ (an activator), ATP (a phosphoryl donor) and histone H1 (a substrate protein) with Ki values ranging from 1.2 to 1.7 microM. Defensins, unlike polymyxin B (another peptide inhibitor of PKC), did not inhibit the binding of [3H]phorbol 12,13-dibutyrate to PKC; however, defensins, like polymyxin B, inhibited the PKC activity stimulated by 12-O-tetradecanoylphorbol-13-acetate. Defensins had little or no effect on myosin light chain kinase (a calmodulin/Ca2+-dependent protein kinase) and the holoenzyme or catalytic subunit of cyclic AMP-dependent protein kinase, indicating a specificity of action of defensins. It is suggested that defensins, among the most potent peptide inhibitors of PKC so far identified, may have profound effects on functions of neutrophils and other mammalian cells, in addition to their well-recognized antimicrobial activities.
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PMID:Inhibition of protein kinase C by defensins, antibiotic peptides from human neutrophils. 334 4

L-Thyroxine (T4) and L-triiodothyronine (T3) specifically, inhibited myosin light chain kinase (MLC-kinase) from various tissues whereas inhibitory effects of T4 and T3 on other protein kinases such as protein kinase C, cAMP-dependent protein kinase, casein kinase I, casein kinase II and calmodulin kinase II were much weaker. T4 was a more potent inhibitor of MLC-kinase than T3. Kinetic studies showed that T4 behaved as a competitive inhibitor of MLC-kinase toward calmodulin (CaM) and that Ki value was 2.5 microM. The activity of the catalytic fragment of MLC-kinase, which is active without CaM, was not inhibited by T4. 125I-T4 gel overlay revealed that CaM did not bind T4 but MLC-kinase had 125I-T4 binding activity. These observations suggest that T4 binds at or near CaM binding domain of MLC-kinase and inhibits CaM-induced activation of MLC-kinase.
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PMID:Thyroid hormones inhibit the Ca2+ calmodulin-induced activation of myosin light chain kinase. 335 64


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