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)

A monoclonal antibody, A1, was produced against sodium dodecyl sulfate-polyacrylamide gel electrophoresis purified canine phospholamban and isolated from mouse ascites by chromatography on a hydroxylapatite column. Western immunoblotting experiments showed that the antibody was specific for phospholamban and cross-reacted with the protein from a bovine source. Incubation of bovine cardiac sarcoplasmic reticulum (SR) vesicles with the antibody resulted in a marked increase in the ATP-dependent Ca2+ pump activity which was slightly higher than that brought about by cyclic AMP-dependent protein kinase. This observation provides direct proof for the involvement of phospholamban as a SR Ca2+ pump regulatory protein. In addition to stimulating the Ca2+ pump activity, antibody A1 was capable of blocking the phosphorylation of phospholamban by cyclic AMP-dependent protein kinase and by an endogenous SR Ca2+/calmodulin-dependent protein kinase. It was also capable of blocking the dephosphorylation of phosphorylated phospholamban by an endogenous SR protein phosphatase. From these observations, it may be suggested that the antigenic site of A1 antibody is proximal to the phosphorylation sites of phospholamban.
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PMID:Stimulation of bovine cardiac sarcoplasmic reticulum Ca2+ pump and blocking of phospholamban phosphorylation and dephosphorylation by a phospholamban monoclonal antibody. 293 76

Mild trypsin treatment of canine cardiac microsomes consisting largely of sarcoplasmic reticulum vesicles produced a severalfold activation of oxalate-facilitated calcium uptake. The increase in calcium uptake was associated with an increase in ATP hydrolysis. Proteases other than trypsin were also effective although to a lesser degree. Trypsin produced a shift of the Ca2+ concentration dependency curve for calcium uptake toward lower Ca2+ concentrations, which was almost identical with that produced by phosphorylation of microsomes by cyclic AMP dependent protein kinase when the trypsin and the protein kinase were present at maximally activating concentrations. The Hill numbers (+/- SD) of the Ca2+ dependency after treatment of microsomes with trypsin (1.5 +/- 0.1) or protein kinase (1.7 +/- 0.1) were similar and were not significantly different from those for untreated control microsomes (1.6 +/- 0.1 and 1.8 +/- 0.1, respectively). Autoradiograms of sodium dodecyl sulfate-polyacrylamide electrophoretic gels indicate that 32P incorporation into phospholamban (Mr 27.3K) or its presumed monomeric subunit (Mr 5.5K) was markedly reduced when trypsin-treated microsomes were incubated in the presence of cyclic AMP dependent protein kinase and [gamma-32P]ATP compared to control microsomes incubated similarly but pretreated with trypsin inhibitor inactivated trypsin. The activation of calcium uptake by increasing concentrations of trypsin was paralleled by the reduction of phosphorylation of phospholamban. Trypsin treatment of microsomes previously thiophosphorylated in the presence of cyclic AMP dependent protein kinase and [gamma-35S]thio-ATP did not result in a loss of 35S label from phospholamban, which suggests that phosphorylation of phospholamban protects against trypsin attack.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Proteolytic activation of the canine cardiac sarcoplasmic reticulum calcium pump. 294 17

A pure bovine phospholamban sample was phosphorylated by cyclic AMP-dependent protein kinase maximally to about 1 mol of phosphate/mol of protein (Mr 25,000), whereas phospholamban purified from bovine cardiac SR (sarcoplasmic reticulum) vesicle prephosphorylated by the protein kinase was found to contain 4.6 mol of phosphate/mol of phospholamban. The decrease in phospholamban phosphorylation occurred during the protein purification at the immunoaffinity chromatography step. The protein phosphorylation could be restored by the addition of the affinity column flow-through fraction to the phosphorylation reaction. The phosphorylation-stimulating activity of the flow-through fraction was resistant to boiling and trypsin treatment and extractable by organic solvent, suggesting that the endogenous factor(s) is lipid. Various phospholipids were found capable of stimulating the phosphorylation of phospholamban by cyclic AMP-dependent protein kinase, but only phosphatidylinositol could stimulate the protein phosphorylation to a level achieved by the phosphorylation of SR membrane-bound phospholamban, about 5 mol of phosphate/mol. Phospholamban phosphorylated in the presence of phosphatidylinositol showed similar sites of phosphorylation and sodium dodecyl sulfate-polyacrylamide gel electrophoresis mobility shifts as the phospholamban isolated from phosphorylated SR vesicles. Results of the present study suggest that phospholamban in SR is embedded in a phosphatidylinositol-rich microenvironment, and that this specific environment may be important for the regulation of Ca2+ pump by phospholamban.
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PMID:The phosphorylation of purified phospholamban by cyclic AMP-dependent protein kinase is stimulated by phosphatidylinositol. 295 Jan

Phospholamban, the putative regulatory proteolipid of the Ca2+/Mg2+ ATPase in cardiac sarcoplasmic reticulum, was selectively phosphorylated by a Ca2+/calmodulin (CaM)-dependent protein kinase associated with a cardiac membrane preparation. This kinase also catalyzed the phosphorylation of two exogenous proteins known to be phosphorylated by the multifunctional Ca2+/CaM-dependent protein kinase II (Ca2+/CaM-kinase II), i.e., smooth muscle myosin light chains and glycogen synthase a. The latter protein was phosphorylated at sites previously shown to be phosphorylated by the purified multifunctional Ca2+/CaM-kinase II from liver and brain. The membrane-bound kinase did not phosphorylate phosphorylase b or cardiac myosin light chains, although these proteins were phosphorylated by appropriate, specific calmodulin-dependent protein kinases added exogenously. In addition to phospholamban, several other membrane-associated proteins were phosphorylated in a calmodulin-dependent manner. The principal one exhibited a Mr of approximately 56,000, a value similar to that of the major protein (57,000) in a partially purified preparation of Ca2+/CaM-kinase II from the soluble fraction of canine heart that was autophosphorylated in a calmodulin-dependent manner. These data indicate that the membrane-bound, calmodulin-dependent protein kinase that phosphorylates phospholamban in cardiac membranes is not a specific calmodulin-dependent kinase, but resembles the multifunctional Ca2+/CaM-kinase II. Our data indicate that this kinase may be present in both the particulate and soluble fractions of canine heart.
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PMID:Identification of membrane-bound calcium, calmodulin-dependent protein kinase II in canine heart. 295 8

The effect of the proteases trypsin, thermolysin and papain on the cardiac membrane protein phospholamban was examined before or after phosphorylating the protein with the catalytic subunit of cyclic AMP-dependent protein kinase. The sensitivity of phospholamban to digestion by trypsin and thermolysin was greatly reduced by phosphorylation, suggesting that phospholamban undergoes a conformational change upon phosphorylation. It is suggested that this change in conformation is the mechanism by which phospholamban phosphorylation relieves its inhibition of the sarcoplasmic reticulum Ca2+-ATPase pump.
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PMID:Evidence for a phosphorylation-induced conformational change in phospholamban from the effects of three proteases. 295 52

Monoclonal antibodies have been raised against canine phospholamban purified by sodium dodecyl sulfate - polyacrylamide gel electrophoresis (SDS-PAGE). Four of twenty-four antibodies were purified to close to homogeneity from mouse ascites. All four antibodies could react with isolated bovine cardiac sarcoplasmic reticulum (SR) to result in the stimulation of ATP-dependent Ca2+ pump activity and blocking of phospholamban phosphorylation by cAMP-dependent protein kinase. Relative efficiencies of antibodies in Ca2+ pump stimulation and on phospholamban phosphorylation were not correlated. An immunoabsorbent prepared by conjugating antibody Al to Affi-Gel 10 was used for the purification of phospholamban. Isolated bovine cardiac SR was solubilized in a buffer containing deoxycholate and the soluble fraction was applied to the immunoaffinity column. After washing the column with a series of detergent-containing buffer solutions, the column-bound protein which contained essentially pure phospholamban was eluted by a buffer containing 2.8 M MgCl2. The phospholamban recovery from the immunoaffinity column was close to 100%; the overall yield of purification from SR vesicles was about 70%. SDS-PAGE analysis showed that purified phospholamban consisted of a 25 and 5 kilodalton (kDa) protein species. Upon brief boiling (20 s) of the sample in SDS-PAGE sample buffer, five molecular species ranging from 5 to 25 kDa could be detected by immunotransblotting following SDS-PAGE. This observation supports the notion that phospholamban is composed of five 5-kDa polypeptides. The pure phospholamban could be phosphorylated maximally by cAMP-dependent protein kinase to 1-1.5 mol phosphate/mol phospholamban (25,000 g). This stoichiometry of phosphorylation could be increased to about 5 upon addition of the immunoaffinity column flow through fraction.
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PMID:Rapid purification of phospholamban by monoclonal antibody immunoaffinity chromatography. 295 97

We have examined the effects of added cAMP-dependent protein kinase and endogenous calmodulin-dependent kinase on Ca2+ transport in purified internal membranes from human platelets. Both Ca2+ uptake and Ca2+-ATPase activity were maximally stimulated about 2-fold by addition of cAMP-dependent protein kinase. Cyclic AMP-dependent protein kinase inhibitor reduced both Ca2+ uptake and Ca2+-ATPase activities at concentrations which also inhibited cAMP-dependent protein phosphorylation. In addition, concerted stimulation of Ca2+-ATPase by exogenous calmodulin and added catalytic subunit of cAMP-dependent protein kinase was observed. A 22-kDa protein was phosphorylated by both cAMP-dependent and calmodulin-dependent kinases at the same rate as stimulation of the Ca2+-ATPase. Cyclic AMP-dependent phosphorylation of the 22-kDa polypeptide was inhibited by the protein kinase inhibitor and calmodulin-dependent phosphorylation was inhibited by chlorpromazine and EGTA. These results are consistent with the hypothesis that one mode of control of Ca2+ homeostasis in platelets may be similar to the phospholamban system in cardiac muscle.
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PMID:Regulation of human platelet membrane Ca2+ transport by cAMP- and calmodulin-dependent phosphorylation. 295 93

Calmodulin has been shown to stimulate the initial rates of Ca2+-uptake and Ca2+-ATPase in cardiac sarcoplasmic reticulum, when it is present in the reaction assay media for these activities. To determine whether the stimulatory effect of calmodulin is mediated directly through its interaction with the Ca2+-ATPase, or indirectly through phosphorylation of phospholamban by an endogenous protein kinase, two approaches were taken in the present study. In the first approach, the effects of calmodulin were studied on a Ca2+-ATPase preparation, isolated from cardiac sarcoplasmic reticulum, which was essentially free of phospholamban. The enzyme was preincubated with various concentrations of calmodulin at 0 degrees C and 37 degrees C, but there was no effect on the Ca2+-ATPase activity assayed over a wide range of [Ca2+] (0.1-10 microM). In the second approach, cardiac sarcoplasmic reticulum vesicles were prephosphorylated by an endogenous protein kinase in the presence of calmodulin. Phosphorylation occurred predominantly on phospholamban, an oligomeric proteolipid. The sarcoplasmic reticulum vesicles were washed prior to assaying for Ca2+ uptake and Ca2+-ATPase activity in order to remove the added calmodulin. Phosphorylation of phospholamban enhanced the initial rates of Ca2+-uptake and Ca2+-ATPase, and this stimulation was associated with an increase in the affinity of the Ca2+-pump for calcium. The EC50 values for calcium activation of Ca2+-uptake and Ca2+-ATPase were 0.96 +/- 0.03 microM and 0.96 +/- 0.1 microM calcium by control vesicles, respectively. Phosphorylation decreased these values to 0.64 +/- 0.12 microM calcium for Ca2+-uptake and 0.62 +/- 0.11 microM calcium for Ca2+-ATPase. The stimulatory effect was associated with increases in the apparent initial rates of formation and decomposition of the phosphorylated intermediate of the Ca2+-ATPase. These findings suggest that calmodulin regulates cardiac sarcoplasmic reticulum function by protein kinase-mediated phosphorylation of phospholamban.
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PMID:Mechanism of the stimulation of cardiac sarcoplasmic reticulum calcium pump by calmodulin. 297 4

The dissociation of the holoenzyme of the cAMP-dependent protein kinase was induced by the adrenaline-stimulated endogenous cAMP synthesis. This dissociation was impaired in a hypoxic muscle. The elevated proteolytic activity in the hypoxic area was found to be associated with the reduction of the 33P incorporation into phospholamban in the presence of 10(-6) M cAMP. No changes were observed when protein kinase was added to the incubation mixture. A correlation between the degree of phospholamban phosphorylation and its susceptibility to proteolysis was demonstrated.
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PMID:[Changes in the cAMP-dependent phosphorylation system of myocardial sarcoplasmic reticulum components during circulatory hypoxia]. 298 82

The gel-overlay technique with 125I-labelled calmodulin allowed the detection of several calmodulin-binding proteins of Mr 280 000, 150 000, 97 000, 56 000, 35 000 and 24 000 in canine cardiac sarcoplasmic reticulum. Only two calmodulin-binding proteins could be identified unambiguously. Among them, the 97 000-Mr protein that undergoes phosphorylation in the presence of Ca2+ and calmodulin, is likely to be glycogen phosphorylase. In contrast, the (Ca2+ + Mg2+)-activated ATPase did not appear to bind calmodulin under our experimental conditions. The second known calmodulin target is dephosphophospholamban, which migrates with an apparent Mr of 24 000. The dimeric as well as the monomeric form of phospholamban was found to bind calmodulin. Phospholamban shifts the apparent Kd of erythrocyte (Ca2+ + Mg2+)-activated ATPase for calmodulin, suggesting thus a tight binding of calmodulin to the proteolipid. Interestingly enough, phospholamban phosphorylation by either the catalytic subunit of cyclic AMP-dependent protein kinase or the Ca2+/calmodulin-dependent phospholamban kinase was found to inhibit calmodulin binding.
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PMID:Cardiac sarcoplasmic-reticulum calmodulin-binding proteins. Modulation of calmodulin binding to phospholamban by phosphorylation. 298 48


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