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)

The effect of CAM [cyclic AMP, Mg-ATP, and 3-isobutyl, 1-methylxanthine (MIX)] on triacylglycerol (TG) lipase activity in extracts from heparin-perfused rat heart was determined. TG lipase activity in homogenate, 10,000g supernatant, 105,000g supernatant, ammonium sulfate supernatant, and the eluate from heparin-Sepharose was increased between 62 and 151% when incubated with a combination of 0.3 mM cyclic AMP, 5 mM MgCl2, and 2 mM ATP. The addition of Mg-ATP + cyclic AMP caused a greater activation of TG lipase in the various fractions than did Mg-ATP + MIX or cyclic AMP + MIX. These results suggest that activation may be mediated by the classical cyclic AMP-protein kinase cascade. Control and CAM-stimulated activities were increased by heparin and inhibited by NaCl and protamine sulfate. In the absence of serum in the assay, the CAM system caused a relatively greater stimulation of lipolytic activity in each fraction compared to when serum was present in the assay. However, the absolute values were 6.1 to 16.3-fold greater with serum in the assay than without serum. In a similar manner, TG lipase activity was stimulated by CAM between 1.75 and 4.26-fold at pH 7.4, and only between 1.62 and 2.51-fold at pH 8.1. However, the absolute values at pH 8.1 were 6.77 to 31.83-fold greater than those seen at pH 7.4. These data demonstrate, for the first time, the cyclic AMP activation of a TG lipase above basal levels in cell-free fractions of rat heart. It is intriguing to speculate that the intracellular fraction of lipoprotein lipase may play a role in the hormonal regulation of cardiac TG lipolysis.
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PMID:Cyclic AMP activation of a triglyceride lipase in broken cell preparations of rat heart. 301 40

Two nuclear cAMP-independent protein kinases (designated PK-N1 and PK-N2) were purified from rat ventral-prostate and liver. The yield of enzyme units was 4-5% and 7-9% for each enzyme from the prostatic nuclei and liver nuclei, respectively. The average fold purification for prostatic nuclear protein kinase N1 and N2 was 1360 and 1833, respectively. The respective average specific activity of the two enzymes towards casein was 81,585 and 110,000 nmol 32P incorporated/hr/mg of enzyme. Protein kinase N1 comprised one polypeptide of Mr 35,000 which underwent phosphorylation in the presence of Mg2+ + ATP. Protein kinase N2 comprised two polypeptides Mr 40,000 and 30,000 of which only the Mr 30,000 polypeptide was autophosphorylated. Both enzymes were active towards casein, phosvitin, dephosphophosvitin, spermine-binding protein, and non-histone proteins in vitro. Little activity was detected towards histones. Both enzymes were stimulated by 150-200 mM NaCl. MgCl2 requirement varied with the protein substrate but was between 2-4 mM for both enzymes. With dephosphophosvitin as substrate, the apparent Km for ATP for N1 protein kinase was 0.01 mM. GTP did not replace ATP in this reaction. Protein kinase N2 was active in the presence of ATP or GTP. The apparent Km was 0.01 mM for ATP, but 0.1 mM for GTP.
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PMID:Purification of nuclear cAMP-independent protein kinases from rat ventral prostate. 302 29

The retinal cones of teleost fish contract at dawn and elongate at dusk. We have previously reported that we can selectively induce detergent-lysed models of cones to undergo either reactivated contraction or reactivated elongation, with rates and morphology comparable to those observed in vivo. Reactivated contraction is ATP dependent, activated by Ca2+, and inhibited by cAMP. In addition, reactivated cone contraction exhibits several properties that suggest that myosin phosphorylation plays a role in mediating Ca2+-activation (Porrello, K., and B. Burnside, 1984, J. Cell Biol., 98:2230-2238). We report here that lysed cone models can be induced to contract in the absence of Ca2+ by incubation with trypsin-digested, unregulated myosin light chain kinase (MLCK) obtained from smooth muscle. This observation provides further evidence that MLCK plays a role in regulating cone contraction. We also report here that lysed cone models can be induced to contract in the absence of Ca2+ by incubation with high concentrations of MgCl2 (10-20 mM). Mg2+-induced reactivated contraction is supported by inosine triphosphate (ITP) just as well as by ATP. Because ITP will not serve as a substrate for MLCK, this finding suggests that Mg2+-activation of contraction does not require myosin phosphorylation. Although Ca2+-induced contraction is completely blocked by cAMP at concentrations less than 10 microM, cAMP has no effect on cone contraction activated by unregulated MLCK or by high Mg2+ in the absence of Ca2+. Because trypsin digestion of MLCK cleaves off not only the Ca2+/calmodulin-binding site but also the site phosphorylated by cAMP-dependent protein kinase, and because Mg2+ activation of cone contraction circumvents MLCK action altogether, both these observations would be expected if cAMP inhibits reactivated cone contraction by catalyzing the phosphorylation of MLCK and thus reducing its affinity for Ca2+, as has been described for smooth muscle. Together our results suggest that in lysed cone models, myosin phosphorylation is sufficient for activating cone contraction, even in the absence of other Ca2+-mediated events, that cAMP inhibition of contraction is mediated by cAMP-dependent phosphorylation of MLCK, and that 10-20 mM Mg2+ can activate actin-myosin interaction to produce contraction in the absence of myosin phosphorylation.
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PMID:Calcium-independent contraction in lysed cell models of teleost retinal cones: activation by unregulated myosin light chain kinase or high magnesium and loss of cAMP inhibition. 303 26

The self-aggregation behavior of casein kinase II from Drosophila melanogaster has been analyzed by velocity sedimentation and electron microscopy. The results indicate that self-aggregation involves the formation of linear polymers or filaments approximately 10 nm in diameter. In the presence of 1 mM EDTA filament length was inversely proportional to total ionic strength over a range from 0.05 to 0.28, and filaments as long as 0.5 micron were observed at the lower ionic strengths. Similar results were obtained in the presence of 10 mM MgCl2, but two additional ionic strength-dependent phenomena were superimposed. First, at subphysiological ionic strength side-to-side aggregation of filaments occurred which resulted in enzyme precipitation. Second, at physiological ionic strength a time- and temperature-dependent increase in filament length occurred which generated polymers up to 5 micron long. No side-to-side aggregation occurred under the latter conditions. Filamentous forms of the kinase could be readily reconverted to the standard alpha 2 beta 2 tetramer by the addition of high salt. Filamentous casein kinase II was observed over a pH range from 6.8 to 8.0, at enzyme concentrations ranging from 6 to 150 micrograms/ml, in the presence of ATP, and at MgCl2 concentrations from 1 to 10 mM. However, time-dependent growth of long filaments was not observed at Mg2+ concentrations below 10 mM. The conditions under which filaments are observed in vitro suggest that they may also exist in vivo. The possibility that filament formation plays a role in the regulation of casein kinase II activity is discussed.
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PMID:A filamentous form of Drosophila casein kinase II. 309 19

We have identified two protein kinase activities in homogenates of bovine parathyroid tissue following fractionation on DEAE columns. One of these is a protein kinase C based upon its requirement for calcium and phosphatidylserine and the other one is probably M kinase. The protein kinase C phosphorylated both proparathyroid hormone and parathyroid hormone but not secretory protein-I (SP-I). Neither N [1-34] or C [35-84] terminal hormonal fragments were phosphorylated, suggesting that the structure of the intact PTH molecule is required for recognition by the enzyme. A second kinase activity behaving like M kinase was also obtained. This activity, which was not separable from a cAMP dependent kinase, was maximal with only 50 mM MgCl2 as cofactor. SP-I was readily phosphorylated by this activity but parathyroid hormone was not.
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PMID:Protein kinase activities in the parathyroid gland: proparathyroid hormone, parathyroid hormone and secretory protein-I as substrates for phosphorylation. 320 46

The mechanism by which the protein kinase activity of the epidermal growth factor (EGF) receptor is activated by binding of growth factor was investigated. Detergent-solubilized receptor in monomeric form was isolated by sucrose density gradient centrifugation and both its kinase and autophosphorylation activities monitored. In a low ionic strength medium and with MnCl2 as an activator, the activity of the monomeric receptor was EGF-independent. However, with 0.25 M ammonium sulfate present, the MnCl2-stimulated kinase activity was strikingly EGF-dependent. In contrast, the kinase activity expressed in the presence of MgCl2 showed growth factor control in the absence of added salt. Under the conditions of these experiments there was apparently little tendency for growth factor to induce aggregation of the receptor, indicating that the allosteric activation of the receptor kinase by EGF occurred via an intramolecular mechanism. Whereas detergent-solubilized receptor was the subject of these studies, the kinase activity of cell surface receptors might also be controlled by an intramolecular mechanism. These results indicate that an individual receptor molecule has the potential to function as a transmembrane signal transducer.
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PMID:Growth factor control of epidermal growth factor receptor kinase activity via an intramolecular mechanism. 325 89

Cyclic nucleotide independent protein kinases preferring casein as in vitro substrates were resolved into four distinct species. Only one of the enzymes (CKII) was retained by DEAE-cellulose, whereas the three other enzymes (CKI-1, CKI-2, and CKI-3) were absorbed to CM-Sephadex, eluted with 250 and 600 mM NaCl, and fractionated by heparin-Sepharose chromatography. The casein kinase CKI-3 eluting at the highest NaCl concentration (550 mM) was purified to electrophoretic homogeneity by fast protein liquid chromatography. CKI-1 and CKI-2 correspond to mammalian type I casein kinase, because they bind to CM-Sephadex, they are monomeric enzymes of molecular weights below 50,000, they accept ATP exclusively (CKI-1) or predominantly (CKI-2) as phosphate donor, and they are either completely or relatively heparin insensitive. CKII corresponds to type II casein kinase due to its chromatographic properties, complex quaternary structure, nucleotide specificity (both ATP and GTP are phosphate donors), and heparin sensitivity. CKI-3 shares the following properties with type I casein kinases: it is retained by CM-Sephadex but not by DEAE-cellulose, and it consists of a monomeric protein having a molecular weight of 38,000. On the other hand, CKI-3 accepts both ATP and GTP with equal efficiency, and it is heparin sensitive (50% inhibition at 0.3 microgram/mL) like type II casein kinases. CKI-3 differs from the other three yeast casein kinases in requiring a low pH (5.5) and a high MgCl2 concentration (50 mM) for optimal activity. All four casein kinases phosphorylate their own catalytic protein at serine and threonine residues.
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PMID:Purification of a yeast protein kinase sharing properties with type I and type II casein kinases. 331 Nov 46

1. Triton extracts of syncytiotrophoblast membranes were incubated with [gamma-32P]ATP, MgCl2 and MnCl2. Addition of epidermal growth factor (EGF) resulted in increased phosphorylation not only of the EGF receptor and a Mr-35,000 protein as previously described, but also a protein of Mr 95,000 on both tyrosine and serine residues. In addition, a small increase in the phosphorylation of a protein of Mr 105,000 was observed. Spermine had a similar effect on the phosphorylation of the Mr-95,000 protein, without affecting the phosphorylation of the other proteins. In the absence of MnCl2, the effect of spermine on the phosphorylation of Mr-95,000 protein was still evident, whereas that of EGF was greatly diminished. 2. The Mr-95,000 protein bound poorly to wheat-germ-lectin-Sepharose and was not precipitated by antisera specific for insulin and EGF receptors. The protein continued to exhibit serine and tyrosine phosphorylation on addition of [gamma-32P]ATP, MgCl2 and MnCl2 to a glycoprotein-depleted fraction prepared by chromatography on wheat-germ-lectin-Sepharose. The extent of phosphorylation was no longer increased by spermine or EGF, but was inhibited by heparin. 3. It is suggested that the Mr-95,000 protein not only is a possible direct substrate for the EGF-receptor (but not the insulin receptor) tyrosine kinase but is a substrate for other endogenous kinases, including a protein tyrosine kinase which is probably not a glycoprotein, and a protein serine kinase with properties similar to those of casein kinase II.
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PMID:Epidermal growth factor, but not insulin, stimulates tyrosine phosphorylation of an endogenous protein of Mr 95,000 in triton extracts of human placental syncytiotrophoblast membranes. 332 13

Calcium release from isolated heavy sarcoplasmic reticulum of rabbit skeletal muscle by several calmodulin antagonistic drugs was measured spectrophotometrically with arsenazo III and compared with the properties of the caffeine-induced calcium release. Trifluoperazine and W7 (about 500 microM) released all actively accumulated calcium (half-maximum release at 129 microM and 98 microM, respectively) in the presence 0.5 mM MgCl2 and 1 mg/ml sarcoplasmic reticulum protein; calmidazolium (100 microM) and compound 48/80 (70 micrograms/ml) released maximally 30-40% calcium, whilst bepridil (100 microM) and felodipin (50 microM) with calmodulin antagonistic strength similar to trifluoperazine (determined by inhibition of the calcium, calmodulin-dependent protein kinase of cardiac sarcoplasmic reticulum) did not cause a detectable calcium release, indicating that this drug-induced calcium release is not due to the calmodulin antagonistic properties of the tested drugs. Calcium release of trifluoperazine, W7 and compound 48/80 and that of caffeine was inhibited by similar concentrations of magnesium (half-inhibition 1.4-4.2 mM compared with 0.97 mM for caffeine) and ruthenium red (half-inhibition for trifluoperazine, W7 and compound 48/80 was 0.22 microM, 0.08 microM and 0.63 micrograms/ml, respectively, compared with 0.13 microM for caffeine), suggesting that this drug-induced calcium release occurs via the calcium-gated calcium channel of sarcoplasmic reticulum stimulated by caffeine or channels with similar properties.
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PMID:Drug-induced calcium release from heavy sarcoplasmic reticulum of skeletal muscle. 333 19

Drug-resistant cell lines derived from the mouse macrophage-like cell line J774.2 express the multidrug resistance phenotype which includes the overexpression of a membrane glycoprotein (130-140 kilodaltons). Phosphorylation of this resistant-specific glycoprotein (P-glycoprotein) in intact cells and in cell-free membrane fractions has been studied. The phosphorylated glycoprotein can be immunoprecipitated by a rabbit polyclonal antibody specific for the glycoprotein. Phosphorylation studies done with partially purified membrane fractions derived from colchicine-resistant cells indicated that (a) phosphorylation of the glycoprotein in 1 mM MgCl2 was enhanced a minimum of 2-fold by 10 microM cAMP and (b) the purified catalytic subunit of the cAMP-dependent protein kinase (protein kinase A) phosphorylated partially purified glycoprotein that was not phosphorylated by [gamma-32P]ATP alone, suggesting that autophosphorylation was not involved. These results indicate that the glycoprotein is a phosphoprotein and that at least one of the kinases responsible for its phosphorylation is a membrane-associated protein kinase A. The state of phosphorylation of the glycoprotein, which is a major component of the multidrug resistance phenotype, may be related to the role of the glycoprotein in maintaining drug resistance.
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PMID:Phosphorylation of the multidrug resistance associated glycoprotein. 342 52

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