EC:2.7.11.1 - FACTA Search

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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)

A protein kinase (ATP:protein phosphotransferase, EC 2.7.1.37) which catalyzes the phosphorylation of troponin T, phosvitin and casein has been purified over 2000 fold from rabbit skeletal muscle. The partial purification of this new enzyme, designated troponin T kinase, involves precipitation of contaminating proteins at pH 6.1, fractionation of the supernatant with (NH4)2SO4 and successive column chromatographies on DEAE-cellulose, hydroxyapatite and Sepharose 6B. The chromatographic patterns on DEAE-cellulose and hydroxyapatite columns show two peaks of troponin T kinase activity. Gel filtration experiments indicate the existence of multiple, possibly aggregated, forms of the enzyme. The purified enzyme does not catalyze the phosphorylation of phosphorylase b, troponin I, troponin C, tropomyosin, protamine, or myosin light chain 2 nor does it catalyze the interconversion of glycogen synthase I into the D form. Troponin T kinase is not affected by the addition of cyclic nucleotides or AMP to the reaction mixture. Divalent cations (other than Mg2+, required for the reaction) do not stimulate the enzyme, and several are inhibitory. Other characteristics of the reaction catalyzed by troponin T kinase, such as Km values for ATP and substrate proteins, pH optima, effect of the concentration of Mg2+, substitution of ATP for GTP have also been studied.
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PMID:Purification and properties of troponin T kinase from rabbit skeletal muscle. 3 14

1. The CNBr digest of troponin C from rabbit fast skeletal muscle was shown to possess many of the functional properties of the whole troponin C molecule. 2. A peptide corresponding to residues 83-134 was isolated, which forms a Ca(2+-dependent complex with troponin I and neutralizes the inhibition by troponin I of the Mg(2+-stimulated adenosine triphosphatase of desensitized actomyosin. 3. The peptide inhibits the phosphorylation of fast-skeletal-muscle, but not cardiac-muscle, troponin I, by 3' :5'-cyclic AMP-dependent protein kinase. In this property it was as effective as whole skeletal-muscle troponin C when compared on a molar basis. 4. Biological activity was also present in other fractions obtained from the CNBr digest. 5. By gel filtration and affinity chromatography of the whole CNBr digest of troponin C, two peptides, one of which was identified as representing residues 83-134, were shown to form Ca(2+-dependent complexes with troponin I. 6. The significance of these findings for the mechanism of interaction of troponin C and troponin I is discussed.
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PMID:Characterization of a region of the primary sequence of troponin C involved in calcium ion-dependent interaction with troponin I. 15 34

1. Troponin I isolated from fresh cardiac muscle by affinity chromatography contains about 1.9 mol of covalently bound phosphate/mol. Similar preparations of white-skeletal-muscle troponin I contain about 0.5 mol of phosphate/mol. 2. A 3':5'-cyclic AMP-dependent protein kinase and a protein phosphatase are associated with troponin isolated from cardiac muscle. 3. Bovine cardiac 3':5'-cyclic AMP-dependent protein kinase catalyses the phosphorylation of cardiac troponin I 30 times faster than white-skeletal-muscle troponin I. 4. Troponin I is the only component of cardiac troponin phosphorylated at a significant rate by the endogenous or a bovine cardiac 3':5'-cyclic AMP-dependent protein kinase. 5. Phosphorylase kinase catalyses the phosphorylation of cardiac troponin I at similar or slightly faster rates than white-skeletal-muscle troponin I. 6. Troponin C inhibits the phosphorylation of cardiac and skeletal troponin I catalysed by phosphorylase kinase and the phosphorylation of white skeletal troponin I catalysed by 3':5'-cyclic AMP-dependent protein kinase; the phosphorylation of cardiac troponin I catalysed by the latter enzyme is not inhibited.
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PMID:The phosphorylation of troponin I from cardiac muscle. 17 90

1. Troponin I prepared from rabbit hearts contains 1.0-1.5 mol of P/mol when isolated by affinity chromatography. Most of the covalently bound phosphate is located in residues 1-48 of the molecule. 2. 3':5'-Cyclic AMP-dependent protein kinase catalyses phosphorylation at serine-20 and serine-146. Serine-20 is more rapidly phosphorylated than serine-146. 3. In troponin I prepared from frozen hearts by affinity chromatography about 0.3-0.5 mol of P/mol is associated with serine-20 and 0.8-1.0 mol of P/mol with other site(s) in residues 1-48 of the molecule. 4. Phosphorylation at serine-20 and servine-146 is not significantly inhibited by troponin C. 5. The mechansim of the interaction of troponin C with cardiac troponin I is discussed in the light of these results.
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PMID:The sites of phosphorylation of rabbit cardiac troponin I by adenosine 3':5'-cyclic monophosphate-dependent protein kinase. Effect of interaction with troponin C. 20 50

When hearts from control and phosphorylase kinase-deficient (I strain) mice were perfused with 0.1 micrometer-DL-isoprenaline, there was a parallel increase in contraction, cyclic AMP concentration and troponin I phosphorylation. However, there was no increase in phosphorylase a in the I-strain hearts, whereas the control hearts showed a large increase. Assays of I-strain heart extracts showed a normal cyclic AMP-dependent protein kinase activity but no phosphorylase kinase activity. It is concluded that troponin I is phosphorylated in intact hearts by protein kinase and not phosphorylase kinase.
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PMID:Phosphorylation of the inhibitory subunit of troponin in perfused hearts of mice deficient in phosphorylase kinase. Evidence for the phosphorylation of troponin by adenosine 3':5'-phosphate-dependent protein kinase in vivo. 20 66

We studied changes in myofibrillar function and protein profiles after complete global ischemia with anoxia in rat hearts. Hearts were exposed to global ischemia and anoxia (CGI) for 30 or 60 minutes at 37 degrees C, and myofibrils were prepared for measurement of Ca(2+)-dependent Mg(2+)-ATPase activity at pH 7.0 and 6.5. Hearts incubated in cold saline (1 +/- 1 degrees C) and nonincubated hearts served as controls. Maximum ATPase activity was unchanged at pH 7.0 and pH 6.5 in myofibrils from hearts treated with 30 or 60 minutes of CGI. At pH 7.0, the Hill coefficient, which is an index of cooperative interactions among thin-filament proteins, was unchanged after 30 minutes of CGI but was significantly increased after 60 minutes of CGI. A similar trend for increased cooperativity was observed when myofibrillar ATPase activity was measured at pH 6.5 in myofibrils from rat hearts made ischemic for 30 or 60 minutes. Both 30 and 60 minutes of CGI resulted in increased pCa50 values (half-maximally activating free [Ca2+]) at pH 7.0 and pH 6.5. Densitometric analysis of myofibrillar proteins separated with sodium dodecyl sulfate-polyacrylamide gel electrophoresis indicated that troponin I and troponin T were degraded during 60 minutes of CGI. Two new protein bands appearing in ischemia-treated myofibrils were identified as partially degraded troponin I and troponin T with Western blots. The troponin I fragment could be phosphorylated by cAMP-dependent protein kinase. In addition, we observed phosphorylation of a protein band that corresponded to myosin light chain-2 in myofibrils from CGI-treated hearts. These results suggest that degradation of thin-filament proteins may contribute to the changes in cooperativity of Ca2+ regulation of ATPase activity observed in the myofibrils from rat hearts exposed to CGI.
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PMID:Alterations in myofibrillar function and protein profiles after complete global ischemia in rat hearts. 153 Nov 86

Phosphorylation of phospholamban (PLB), a membrane-bound 15 kDa protein and troponin I (TNI) was studied in isolated perfused rat hearts by using the back-phosphorylation technique with [32P]ATP catalysed by an excess of exogenous catalytic subunit of cyclic AMP (cAMP)-dependent protein kinase, followed by protein separation. This standardized method allows the quantitative detection of protein phosphorylation specifically stimulated by cAMP. In control hearts the extent of specific phosphorylation was equivalent to 3.3 nmol of PLB and 11.0 mumol of TNI per g of cardiac tissue. In hearts freeze-clamped 30 s after exposure to isoprenaline (10 pM-10 microM), there was a dose-dependent decrease in phosphate incorporation in vitro, indicating a phosphorylation of the respective proteins in vivo. A differential sensitivity of TNI and PLB phosphorylation towards the beta-adrenergic agonist and the subsequent increase in tissue cAMP was found, favouring TNI phosphorylation. K0.5 values for isoprenaline were 2.94 +/- 0.04 nM and 4.46 +/- 0.24 nM for PLB and the 15 kDa protein, but 0.13 +/- 0.01 nM for TNI phosphorylation in the intact tissue. At an isoprenaline-induced increase in cAMP less than 3 pmol/mg of protein there was no or only a small increase in PLB phosphorylation, whereas TNI phosphorylation was nearly maximal. By plotting phosphorylation data against changes in contractile parameters a strong correlation was obtained for TNI (r = 0.95), assuming a linear relationship. For PLB a complex relationship is likely to exist. Our data (i) indicate a functional compartmentalization of the cAMP signal cascade and (ii) confirm that phosphorylation of TNI rather than of PLB is related to changes in mechanical myocardial responses.
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PMID:Differential sensitivity to isoprenaline of troponin I and phospholamban phosphorylation in isolated rat hearts. 215 3

A sequence homology has been noted between the carboxyl quarter of the catalytic gamma subunit of phosphorylase kinase and the region of troponin I coded by exon VII. Because this portion of troponin I contains the inhibitory region that interacts with actin and troponin C, we have examined whether the gamma subunit of phosphorylase kinase can functionally mimic troponin I by also interacting with actin and troponin C. We have found that troponin C not only activates the isolated gamma subunit of phosphorylase kinase but also binds with approximately the same affinity as calmodulin. Although actin had no effect on the activity of the gamma subunit alone, it did inhibit the activity of gamma-calmodulin and gamma-troponin C complexes. Conversely, the gamma subunit was able to inhibit actomyosin ATPase in a process that could be overcome by calmodulin. These results suggest that actin and calmodulin (or troponin C) compete for binding to the gamma subunit. Moreover, the structural and functional similarities between the gamma subunit and troponin I suggest that the gamma subunit of phosphorylase kinase may have evolved from the fusion of a protein kinase protogene with a progenitor of exon VII of troponin I.
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PMID:Functional and structural similarities between the inhibitory region of troponin I coded by exon VII and the calmodulin-binding regulatory region of the catalytic subunit of phosphorylase kinase. 240 8

The present study was designed to examine the relation between the loss of Ca2+ uptake activity and the change of protein phosphorylation in sarcoplasmic reticulum from ischemic myocardium. Ischemic (0.5, 1 and 2 h duration) and non-ischemic tissue samples were taken from the coronary-ligated porcine left ventricle and sarcoplasmic reticulum fractions were isolated. The membranes were tested for Ca2+ uptake and ATPase activities and phosphorylation of phospholamban. The in vitro 32P incorporation into phospholamban in the presence of cAMP plus the catalytic subunit of cyclic AMP dependent protein kinase became markedly reduced depending on the duration of ischemia. The activities of the Ca2+ pump (Ca2+ uptake and ATPase) were also decreased. The 32P incorporation into the myofibrillar component troponin I, which is also a specific substrate for catalytic subunit, was not affected by ischemia. The reduction of the Ca2+ pump activity correlated with the reduction of 32P incorporation into phospholamban. It is postulated that the ischemia induced inactivation of the Ca2+ pump is not only a consequence of specific loss of enzyme activity, but it is also caused by altered characteristics of phospholamban.
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PMID:Calcium transport and phospholamban in sarcoplasmic reticulum of ischemic myocardium. 252 77

(1) The effects of norepinephrine on protein phosphorylation in isolated rat cardiac ventricular myocytes were determined by autoradiography on 32P-labelled proteins separated by electrophoresis; (2) In cells from young adult rats (6 months old) there was a marked increase due to norepinephrine (10(-8) to 10(-4) M) in the incorporation of 32P into proteins identified on the grounds of molecular weight as troponin I and C-protein: in cells from senescent rats (24 months old) this increase was much attenuated. (3) Age-associated decrements in protein phosphorylation were much diminished when maximally effective concentrations of the adenylate cyclase-activator forskolin and the cyclic AMP analog 8(4-chlorophenylthio) cyclic AMP were used instead of norepinephrine. Moreover, age-associated differences were abolished if the phosphodiesterase inhibitor isobutylmethylxanthine was present in addition to norepinephrine, or alone. (4) Study of the rates of dephosphorylation of troponin I, as initiated with the beta-adrenergic antagonist propranolol, showed no change in half-time as a function of age: this indicates no change in protein phosphatase activity. (5) These results suggest that there is less active net formation of cyclic-AMP in senescent heart cells in response to the neurotransmitter norepinephrine, giving a lesser activation of c-AMP-dependent protein kinase and less phosphorylation of these target proteins.
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PMID:Decrease with senescence in the norepinephrine-induced phosphorylation of myofilament proteins in isolated rat cardiac myocytes. 256 Nov 60

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