EC:2.7.11.1 - FACTA Search

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)

Sephadex G-200 gel filtration of DNA cellulose-treated crude extracts of rat skeletal muscle, revealed a broad peak-fraction of tRNA-inhibitory protein kinases (PK) coeluted endogenous substrates. In comparison, the elution profile of baker's yeast exhibited multiple peak-fractions of tRNA-inhibiting PK. Various tRNA all showed inhibition to PK. In the presence of regulatory subunit of cyclic AMP-dependent protein kinase, tRNA did not exert synergetic inhibition on PK. Moreover, the interaction of tRNA with active muscle PK fractions could not be monitored by the increment of absorbance at 340 nm. tRNA had no significant regulatory effect on the phosphorylation of actin and myosin.
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PMID:Inhibitory effect of transfer RNA on protein kinases from baker's yeast and rat skeletal muscle. 225 56

A novel calcium-dependent protein kinase (CDPK) previously reported to be activated by the direct binding of Ca2+, and requiring neither calmodulin nor phospholipids for activity [Harmon, A.C., Putnam-Evans, C.L., & Cormier, M.J. (1987) Plant Physiol. 83, 830-837], was purified to greater than 95% homogeneity from suspension-cultured soybean cells (Glycine max, L. Wayne). Purification was achieved by chromatography on DEAE-cellulose, phenyl-Sepharose, Sephadex G-100, and Blue Sepharose. The purified enzyme (native molecular mass = 52,200 Da) resolved into two immunologically related protein bands of 52 and 55 kDa on 10% SDS gels. Enzyme activity was stimulated 40-100-fold by micromolar amounts of free calcium (K0.5 = 1.5 microM free calcium) and was dependent upon millimolar Mg2+. CDPK phosphorylated lysine-rich histone III-S and chicken gizzard myosin light chains but did not phosphorylate arginine-rich histone, phosvitin, casein, protamine, or Kemptide. Phosphorylation of histone III-S, but not autophosphorylation, was inhibited by KCl. CDPK displayed a broad pH optimum (pH 7-9), and kinetic studies revealed a Km for Mg2(+)-ATP of 8 microM and a Vmax of 1.7 mumol min-1 mg-1 with histone III-S (Km = 0.13 mg/mL) as substrate. Unlike many other protein kinases, CDPK was able to utilize Mg2(+)-GTP, in addition to Mg2(+)-ATP, as phosphate donor. The enzyme phosphorylated histone III-S exclusively on serine; however, CDPK autophosphorylated on both serine and threonine residues. These properties demonstrate that CDPK belongs to a new class of protein kinase.
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PMID:Purification and characterization of a novel calcium-dependent protein kinase from soybean. 233 77

In rat uterine smooth muscle, sustained Ca2(+)-free contraction was observed by oxytocin in Ca2(+)-free solution. This Ca2(+)-free contraction was effectively inhibited by protein kinase inhibitors and cytoskeletal inhibitors but myosin-light chain kinase (MLCK) inhibitors were not so effective. Simultaneous addition of a protein kinase inhibitor and a cytoskeletal inhibitor caused synergistic inhibition. These results suggest that the mechanism for Ca2(+)-free contraction involves some protein kinase and cytoskeletal elements rather than MLCK.
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PMID:Inhibitory effects of protein kinase inhibitors and cytoskeletal inhibitors on Ca2(+)-free contraction of rat uterus. 237 47

A Dictyostelium myosin light chain kinase has been purified approximately 15,000-fold to near homogeneity. The purified kinase is a single polypeptide of approximately 34 kDa that phosphorylates only the 18-kDa Dictyostelium myosin regulatory light chain and itself among substrates tested. The enzyme was purified largely by ammonium sulfate fractionation and hydrophobic (butyl) interaction chromatography. Analysis using polyclonal antibodies raised against the purified 34-kDa protein confirms that this protein is responsible for myosin light chain kinase activity. Protein microsequence of the 34-kDa protein reveals conserved protein kinase sequences. The purified Dictyostelium myosin light chain kinase exhibits a Km for Dictyostelium myosin of 4 microM and a Vmax of 8 nmol/min/mg. Unlike other characterized myosin light chain kinases, this enzyme is not regulated by calcium/calmodulin. Western blot analysis demonstrates that the purified kinase is not a proteolytic fragment that has lost calcium/calmodulin regulation. The Dictyostelium myosin light chain kinase activity is not directly regulated by cyclic nucleotides. However, this kinase undergoes an intramolecular autophosphorylation that activates the enzyme.
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PMID:Dictyostelium myosin light chain kinase. Purification and characterization. 238 Jan 88

The Ca2+-dependent regulation of contractile protein interactions in cardiac and vascular smooth muscle involves structurally related but distinct Ca2+ binding proteins. In vascular smooth muscle, Ca2+ binds to calmodulin, and Ca2+-calmodulin activates myosin light chain (MLC) kinase with ultimate stimulation of MLC phosphorylation and actin-myosin interactions. The largest class of inhibitors of vascular contractile protein interactions are the calmodulin antagonists which include certain Ca2+ entry blockers. Pharmacologically, some of these agents can be distinguished from pure Ca2+ entry blockers by being more effective vs. vasoconstrictor agents in vitro, less cardiac depressant, and more effective as platelet aggregation inhibitors. An even greater distinction from Ca2+ entry blockers is evident with another series of agents, isoquinolinesulfonamides, which directly inhibit protein kinase activity. Cardiac muscle myofibrillar regulation involves Ca2+ binding to troponin C (TnC). Some cardiotonics, such as Vardax and APP 201-533, increase the Ca2+ sensitivity of cardiac myofibrillar ATPase activity with a concomitant increase in Ca2+ binding to TnC. Several calmodulin antagonists, Ca2+ blockers, and structurally related agents differentially affect cardiac myofibrillar ATPase activity. Potency and efficacy of some of these stimulating agents is markedly greater than Vardax or APP 201-533. Mechanistically, all agents do not affect cardiac MLC phosphorylation, but directly enhance the Ca2+ sensitivity of ATPase activity. However, differential effects on basal and maximum ATPase activity by some agents suggest more complex or additional effects which are related to the type of agent as well as the species (dog vs. hamster). A major subcellular defect in congestive heart failure in various small animal models is a depressed maximum ATPase activity. Thus, a desired goal would be a pharmacological modulator which increases maximum ATPase activity, not necessarily Ca2+ sensitivity. In sum, it is possible to identify agents, Ca2+ binding protein modulators, which directly inhibit vascular smooth muscle and stimulate cardiac muscle contractile protein interactions. The potential advantages/disadvantages of this approach for vasodilator/cardiotonic drug development will have to await future development of novel compounds targeted specifically for these cellular regulatory processes.
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PMID:Pharmacological modulation of cardiac and vascular contractile protein function. 243 41

The interaction of caldesmon with certain Ca-binding proteins was investigated by means of electrophoresis under non-denaturating conditions. In the presence of Ca2+ calmodulin, troponin C and S-100 protein form a complex with caldesmon. No complex formation takes place in the absence of Ca2+. Lactalbumin and pike parvalbumin (pI4.2) do not interact with caldesmon independently of Ca-concentration. Both S-100 protein and calmodulin effectively inhibit phosphorylation of caldesmon by Ca-phospholipid-dependent protein kinase. At low ionic strength S-100 protein reverses the inhibitory action of caldesmon on the skeletal muscle acto-heavy meromyosin ATPase more effectively than calmodulin. It is supposed that in certain tissues and cell compartments the proteins belonging to the S-100 family are able to substitute for calmodulin in the caldesmon-dependent regulation of actin and myosin interaction.
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PMID:Interaction of smooth muscle caldesmon with S-100 protein. 253 Oct 95

The effects of okadaic acid, a phosphoprotein phosphatase inhibitor, on the contractile response and on myosin light chain phosphorylation were studied in intact lamb tracheal smooth muscle. The effects of okadaic acid were compared to the response of the same fibers stimulated with 1 microM methacholine, a concentration that induces 90% of maximal force. Okadaic acid (50 microM) produced a slow but maximal contraction that was accompanied by an increase in phosphorylation of the 20 kDa light chain of myosin. The myosin light chain phosphorylation pattern induced by okadaic acid, however, differed from that induced by methacholine. Ca2+ depletion, N-(6-aminohexyl)-5-chloro-1-naphthalenesulfonamide (W-7), a calmodulin antagonist and 1-(5-isoquinolinylsulfonyl)-2-methylpiperazine (H-7), a protein kinase C inhibitor, blocked or attenuated methacholine-induced contractions but had no significant effect on force development or myosin light chain phosphorylation induced by okadaic acid. These results suggest that phosphorylation of the 20 kDa light chain of myosin is essential for smooth muscle contraction; they also suggest that okadaic acid either uncovers or activates an apparently Ca2+ and calmodulin-independent protein kinase activity that phosphorylates the 20 kDa light chain of myosin at multiple sites.
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PMID:Okadaic acid, a phosphatase inhibitor, produces a Ca2+ and calmodulin-independent contraction of smooth muscle. 254 93

The glycogen-associated form of protein phosphatase-1 (PP-1G) comprises a 37-kDa catalytic (C) subunit and a 161-kDa glycogen-binding (G) subunit. In the preceding paper in this issue of the journal we showed that the C subunit is released from PP-1G in response to phosphorylation of the G subunit by cAMP-dependent protein kinase. We now show that at 0.15-0.2 M KCl the phosphorylase phosphatase activity of glycogen-bound PP-1G is 5-8 times higher than that of released C subunit or unbound PP-1G, which are strongly inhibited at these ionic strengths. The activity of glycogen-bound PP-1G towards glycogen synthase was about 5-fold higher than that of released C subunit at 0.15M KCl. Studies with glycogen-bound substrates and myosin P-light chain (which does not interact with glycogen) indicated that PP-1G activity is only enhanced compared to free C subunit at near physiological ionic strength and when both PP-1G and substrate are glycogen-associated. The inhibition by increasing ionic strength and enhanced activity upon binding to glycogen reflected changes in K'm, but not Vmax. From the determined specificity constant, k'cat/K'm approximately 4 x 10(6) s-1 M-1, it was calculated that at physiological levels of glycogen-bound PP-1G (200 nM) and phosphorylase (70 microM), dephosphorylation of the latter could occur with a half time of 15 s, sufficient to account for inactivation rates in vivo. The much higher catalytic efficiency of glycogen-bound PP-1G toward the glycogen-metabolising enzymes at physiological ionic strength compared to free C subunit substantiates the role of PP-1G in the regulation of these substrates, and establishes a novel mechanism for selectively regulating their phosphorylation states in response to adrenalin and other factors affecting phosphorylation of the G subunit.
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PMID:Regulation of protein phosphatase-1G from rabbit skeletal muscle. 2. Catalytic subunit translocation is a mechanism for reversible inhibition of activity toward glycogen-bound substrates. 255 14

We have partially purified a protein kinase from rat pancreas that phosphorylates two light-chain subunits of pancreatic myosin, a doublet with components of 18 and 20 kDa. This protein kinase was purified approx. 1000-fold by sequential (NH4)2SO4 fractionation, gel filtration, ion-exchange and affinity chromatography on calmodulin-Sepharose 4B. The resultant enzyme preparation is free of cyclic AMP-dependent protein kinase, protein kinase C and calmodulin-dependent type I or II kinase activities. The purified protein kinase is completely dependent on Ca2+ and calmodulin, and phosphorylates a 20 kDa light-chain subunit of intact gizzard myosin, suggesting that it belongs to a class of enzymes known as myosin light-chain kinase (MLCK). The apparent Km values of the putative pancreatic MLCK for ATP (73 microM), gizzard myosin light chains (18 microM) and calmodulin (2 nM) are similar to those reported for MLCKs isolated from smooth muscle, platelet and other sources. The enzyme is half-maximally activated at a free Ca2+ concentration of 2.5 microM. A single component of the affinity-purified kinase reacts with antibodies to turkey gizzard MLCK. The apparent molecular mass of this component is 138 kDa. Immunoprecipitation of a pancreatic homogenate with these antibodies decreases calmodulin-dependent kinase activity for pancreatic myosin by over 85%. The immunoprecipitate contains a single electrophoretic band of 138 kDa. Tryptic phosphopeptide analyses of pancreatic myosin, phosphorylated by either gizzard or pancreatic MLCK, are identical. Thus the enzyme that we have purified from rat pancreas is a MLCK, as judged by (1) absolute dependence on Ca2+ and calmodulin, (2) high affinity for calmodulin, (3) narrow substrate specificity for the light-chain subunit of myosin, and (4) reactivity with antibodies to turkey gizzard MLCK. These studies establish the existence of a pancreatic MLCK which may be responsible for regulating myosin phosphorylation and enzyme secretion in situ.
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PMID:Purification and characterization of myosin light-chain kinase from the rat pancreas. 273 May 65

Kaempferol, 3,5,7-trihydroxy-2-(4-hydroxyphenyl)-4H-1-benzopyran-4-one, was found to inhibit bovine aorta myosin light chain kinase with a Ki of 0.3-0.5 microM. It was found to be competitive with ATP and non-competitive with isolated myosin light chains. The specificity of this inhibitor was studied relative to protein kinase C and cAMP dependent protein kinase (IC50 = 15 microM and 150 microM, respectively). It appears not to interact strongly with calmodulin binding proteins, such as Ca2+-calmodulin dependent phosphodiesterase (IC50 = 45 microM), and had little effect on actin-activated myosin subfragment-1 ATPase activity (IC50 greater than 100 microM) or smooth muscle phosphatase activities (IC50 greater than 100 microM).
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PMID:Kaempferol inhibits myosin light chain kinase. 280 9

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