Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.3.16 (calcineurin)
 17,112 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Immunoaffinity purified pp60v-src was found to activate the MgATP-dependent protein phosphatase in the presence of MgATP. Although preliminary evidence suggested that phosphorylation of the inhibitor-2 subunit on tyrosine residues was responsible for the activation, preincubation of the pp60v-src preparation at 41 degrees C resulted in a rapid loss of its protein kinase activities towards both casein and inhibitor-2 while its ability to activate the protein phosphatase complex was relatively insensitive to this treatment. This result demonstrated that pp60v-src was not responsible for activation of the MgATP-dependent protein phosphatase. A protein kinase activity which phosphorylated glycogen synthase on serine residues was detected in the pp60v-src preparation. The protein kinase was active in the presence of inhibitors of phosphorylase kinase, glycogen synthase kinase 5/casein kinase II, and cAMP-dependent protein kinase. It is, therefore, likely that activation of the MgATP-dependent protein phosphatase resulted from the presence of a glycogen synthase kinase 3 like activity in the pp60v-src preparation. Our results illustrate the importance of applying multiple criteria to link the phosphorylation of a protein with an observed change in its activity.
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PMID:Apparent activation of the MgATP-dependent protein phosphatase by pp60v-src. Identification of an activity like that of glycogen synthase kinase 3 in immunoaffinity purified pp60v-src preparations. 301 36

High-affinity antibodies against calmodulin (CaM)-dependent cyclic nucleotide phosphodiesterase and protein phosphatase (calcineurin) were purified and characterized. Rabbit anti-phosphodiesterase antibody did not react with other phosphodiesterases or with the regulatory subunits of cAMP-dependent protein kinase. Affinity-purified goat anti-calcineurin antibody recognized both the 61-kDa catalytic subunit and the 18-kDa Ca2+-binding subunit of the phosphatase. Neither antibody reacted with CaM, several CaM-binding proteins (calmodulin-dependent protein kinase, myosin light chain kinase, fodrin), or other cytosolic proteins from brain. The antibodies were used to compare the cellular localization of these two CaM-dependent enzymes in rat brain. Both calcineurin and phosphodiesterase were found predominantly in nerve cells; however, phosphodiesterase was restricted to very specific neuronal populations. Phosphodiesterase was prominent in the somatic cytoplasm and dendrites of regional output neurons--e.g., cerebellar Purkinje cells and hippocampal and cortical pyramidal cells. The extensive and uniform staining in the dendrites was consistent with postsynaptic localization and suggested an important function for this enzyme in neurons that integrate multiple convergent inputs. Calcineurin was present in virtually all classes of neurons, with immunoreactivity confined primarily to cell bodies. Both diffuse cytoplasmic staining and characteristic punctate staining of cell bodies were observed; the latter suggested compartmentalization of calcineurin at or near the plasma membrane. The results of this study demonstrate that calcineurin and phosphodiesterase are differentially localized in the central nervous system. Thus, the expression and compartmentalization of CaM-binding proteins may be highly regulated and specific for particular differentiated nerve cell types.
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PMID:Differential localization of calmodulin-dependent enzymes in rat brain: evidence for selective expression of cyclic nucleotide phosphodiesterase in specific neurons. 302 62

Muscarinic receptor, from porcine synaptic membrane, was purified by affinity chromatography. Molecular weight analysis by SDS-gel electrophoresis revealed one major peptide with an apparent Mr of 68 +/- 2 Kda. The purified receptor was phosphorylated by the catalytic subunit of cAMP-dependent protein kinase resulting in a concomitant loss in specific binding, and this loss was reversed by calcineurin.
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PMID:Phosphorylation of brain muscarinic receptor: evidence of receptor regulation. 303 Mar 6

Bovine brain contains two major calmodulin (CaM) dependent phosphodiesterase isozymes which are homodimeric proteins with subunit molecular masses of 60 and 63 kilodaltons (kDa), respectively. The 60-kDa subunit isozyme can be phosphorylated by cAMP-dependent protein kinase, resulting in a decrease in the enzyme affinity towards CaM. The phosphorylation is blocked by Ca2+ and CaM and reversed by the CaM-stimulated phosphatase (calcineurin). The 63-kDa subunit isozymes can also be phosphorylated, but in this case by a CaM-dependent protein kinase(s). This phosphorylation is also accompanied by a decrease in the isozyme affinity towards CaM and can be reversed by the CaM-dependent phosphatase. Analysis of the complex regulatory properties of the phosphodiesterase isozymes has led to the suggestion that fluxes of cAMP and Ca2+ during cell activations are closely coupled and that the CaM-dependent phosphodiesterase isozymes play key roles in this signal coupling phenomenon.
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PMID:Regulation of cAMP concentration by calmodulin-dependent cyclic nucleotide phosphodiesterase. 303 Mar 66

The phosphorylation of glycogen synthase has been studied in freshly isolated adult rat cardiomyocytes. Six peaks of 32P-labeled tryptic peptides are recovered via C-18 high performance liquid chromatography (HPLC) when synthase is immunoprecipitated from 32P-labeled cardiomyocytes and digested with trypsin. When epinephrine treated cells are used as a source of enzyme, the same HPLC profile is obtained with a dramatic enhancement of 32P recovered in two of the HPLC peaks. In vitro phosphorylation of rat heart synthase by cAMP-dependent protein kinase stimulates the conversion of synthase from the I to the D form and results in the recovery of the same tryptic peptides from the C-18 as is the case for synthase derived from cardiomyocytes. Treatment of cAMP-dependent kinase phosphorylated synthase with protein phosphatase-1 leads to a reactivation of the enzyme and a dephosphorylation of the same tryptic peptides that are selectively phosphorylated in epinephrine treated cardiomyocytes. These results are discussed in relation to hormonal control of glycogen metabolism in cardiac tissue.
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PMID:Phosphorylation of rat heart glycogen synthase: studies in cardiomyocytes and in vitro phosphorylations with cAMP-dependent kinase and protein phosphatase-1. 303 Apr 51

C-protein purified from chicken cardiac myofibrils was phosphorylated with the catalytic subunit of cAMP-dependent protein kinase to nearly 3 mol [32P]phosphate/mol C protein. Digestion of 32P-labeled C-protein with trypsin revealed that the radioactivity was nearly equally distributed in three tryptic peptides which were separated by reversed-phase HPLC. Fragmentation of 32P-labeled C-protein with CNBr showed that the isotope was incorporated at different ratios in three CNBr fragments which were separated on polyacrylamide gels in the presence of sodium dodecyl sulfate. Phosphorylation was present in both serine and threonine residues. Incubation of 32P-labeled C-protein with the catalytic subunit of protein phosphatase 1 or 2A rapidly removed 30-40% of the [32P]phosphate. The major site(s) dephosphorylated by either one of the phosphatases was a phosphothreonine residue(s) apparently located on the same tryptic peptide and on the same CNBr fragment. CNBr fragmentation also revealed a minor phosphorylation site which was dephosphorylated by either of the phosphatases. Increasing the incubation period or the phosphatase concentration did not result in any further dephosphorylation of C-protein by phosphatase 1, but phosphatase 2A at high concentrations could completely dephosphorylate C-protein. These results demonstrate that C-protein phosphorylated with cAMP-dependent protein kinase can be dephosphorylated by protein phosphatases 1 and 2A. It is suggested that the enzyme responsible for dephosphorylation of C-protein in vivo is phosphatase 2A.
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PMID:Dephosphorylation of cardiac myofibril C-protein by protein phosphatase 1 and protein phosphatase 2A. 303 83

A calmodulin-stimulated protein phosphatase has been purified from bovine myocardium. The purification procedure involves sequential DEAE-Sephacel ion exchange chromatography, calmodulin-Sepharose affinity chromatography, and high performance liquid chromatography using a Spherogel TSK DEAE 5PW column. By SDS polyacrylamide gel electrophoresis, the purified cardiac phosphatase consists of two subunits of Mr 61,000 and 19,000, similar to the brain enzyme, calcineurin. Protein phosphatase activity of the cardiac enzyme is stimulated by Ca2+-calmodulin and inhibited by the calmodulin antagonist drug, calmidazolium. Effects of a series of divalent cations on catalytic activity of the cardiac calmodulin-stimulated protein phosphatase are similar to those observed with calcineurin, when the two enzymes are assayed under identical conditions. Highly enriched preparations of bovine cardiac sarcolemma contain substrates of cAMP-dependent protein kinase of Mr 166 K, 133 K, 108 K, 79 K, 39 K, and 14 K, which are specifically dephosphorylated by the calmodulin-stimulated phosphatase with pseudofirst-order rate constants of 0.23, 0.46, 0.69, 0.35, 0.69, and 0.115 min-1, respectively. These substrates are not present in purified preparations of cardiac sarcoplasmic reticulum. These results support a role of the calmodulin-stimulated phosphatase in the Ca2+-regulation of specific sarcolemmal processes by protein dephosphorylation.
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PMID:Cardiac calmodulin-stimulated protein phosphatase: purification and identification of specific sarcolemmal substrates. 303 93

Calcineurin, a Ca2+ and calmodulin (CM)-dependent phosphatase, has been shown to be present in high concentrations in the striatum. Using inhibitor-1(phosphorylated by cAMP-dependent protein kinase) as a substrate, we found Ca2+/CM-dependent phosphatase (calcineurin) to be more than 2-fold higher than non-Ca2+/CM-dependent phosphatase in the rat striatum. In order to determine the cellular localization of calcineurin, striatal kainic acid injections were used to destroy neurons whose cell bodies are present at the site of injection. Glutamic acid decarboxylase (GAD) activity was measured as an indicator of destruction of striatal GABA-ergic neurons. After intrastriatal injection of 1 and 2 ug of kainic acid, there was a significant decrease of both calcineurin and GAD. However, injection of 0.5 ug kainic acid into the striatum reduced GAD activity by 81%, but had no effect on calcineurin phosphatase activity. Thus calcineurin does not appear to be equally distributed among all types of striatal neurons, but rather may be concentrated in neurons that are less sensitive to kainic acid than the GABA-ergic neuron.
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PMID:Ca2+/calmodulin-dependent phosphoprotein phosphatase activity of calcineurin in rat striatum: effect of kainic acid lesions. 303 26

Both temperature-stable and temperature-labile testicular cholesteryl ester hydrolases are shown to be regulated by an endogenous cAMP-dependent protein kinase activity. The temperature-stable form (Mr = 28,000) was activated 3-fold by the endogenous kinase. This activation was completely blocked by protein kinase inhibitor. Following purification by high performance gel permeation chromatography, the temperature-stable form could also be activated 2-fold by bovine heart protein kinase, type I. The partially purified endogenous protein kinase, type I, which was completely separated from hydrolase activity by ion exchange chromatography, increased hydrolase activity 2-fold in the presence of optimal concentrations of cAMP, ATP, and Mg2+. Cholesteryl ester hydrolase activity could be stabilized indefinitely at -10 degrees C with the addition of 0.1 mM thioglycolate, but not by other thiol reagents. In contrast, the endogenous protein kinase activity was lost from 104,000 X g supernatants after 14 days. However, the property of activation could be restored by addition of bovine heart protein kinase. The temperature-labile hydrolase (Mr = 72,000) could be totally inactivated by a Mg2+-dependent, fluoride-sensitive cytosolic factor and reactivated by cAMP-dependent protein kinase. These observations strongly suggest that the inactivating factor is a phosphoprotein phosphatase.
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PMID:Protein kinase-mediated activation of temperature-labile and temperature-stable cholesteryl ester hydrolases in the rat testis. 308 16

Treatment of Swiss mouse 3T3 cells with epidermal growth factor, orthovanadate, or serum results in the activation of a kinase that phosphorylates protein S6 of the 40S ribosomal subunit in vitro. This kinase is eluted as a single peak of activity from either a Mono Q anion-exchange column at 0.34 M NaCl or a Mono S cation-exchange column at 0.20 M NaCl. Treatment of the peak fraction from the Mono S column with phosphatase 2A completely abolishes the activity of the enzyme. The kinase appears to be distinct from protein kinase C, cAMP-dependent protein kinase, and two protease-activated kinases, PAK II and H4P. The kinase has been purified to apparent homogeneity and migrates as a single band at Mr 70,000 in NaDodSO4/polyacrylamide gels. The kinase exhibits the ability to autophosphorylate, and this activity directly parallels S6 phosphorylation activity on the final step of purification. In vitro, the kinase incorporates up to 5 mol of phosphate into S6, and the tryptic phosphopeptide maps obtained are equivalent to those from S6 phosphorylated in vivo. Most important, treatment of the purified kinase with phosphatase 2A results in complete inactivation of the enzyme, arguing that the activity of the kinase is directly controlled by phosphorylation.
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PMID:Identification and characterization of a mitogen-activated S6 kinase. 325 66


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