EC:3.4.21.4 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.21.4 (trypsin)
42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Partially purified rabbit skeletal muscle phosphorylase phosphatase (EC 3.1.3.17; phosphoprotein phosphohydrolase) was inactivated when it was incubated with exogenous cyclic AMP-dependent protein kinase (EC 2.7.1.37; ATP:protein phosphotransferase), cyclic AMP, and ATP-Mg. Subsequent separation of the phosphatase by acrylamide gel electrophoresis or sucrose density centrifugation resulted in reactivation of the enzyme. The phosphatase decreased in molecular weight from approximately 70,000 to 52,000, and a phosphorylated inhibitor with molecular weight of 26,000 was found. Reactivation of phosphatase also occurred when it was incubated with MnCl2 or trypsin. The inhibitor was effective at less than 10(-8) M and was relatively heat stable. Its activity was destroyed by tryptic digestion and by dephosphorylation by a Mn-stimulated phosphatase. These observations support the possibility that phosphorylase phosphatase activity is controlled by cyclic AMP-dependent protein kinase and a Mn-stimulated phosphatase by a reaction involving phosphorylation and dephosphorylation of a protein phosphatase inhibitor.
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PMID:Inactivation of rabbit muscle phosphorylase phosphatase by cyclic AMP-dependent kinas. 17 49

Inhibitor-1 from rabbit skeletal muscle was phosphorylated by protein kinase dependent on adenosine 3' :5'-monophosphate (cyclic AMP), but not by phosphorylase kinase or by glycogen synthetase kinase-2. Protein phosphatase-III, isolated and stored in the presence of manganese ions to keep it stable, was in a form which catalysed a rapid dephosphorylation and inactivation of inhibitor-1. The kinetic constants for the dephosphorylation of inhibitor-1 [Km = 0.7 micron, V(rel) = 40] were comparable to those for the dephosphorylation of phosphorylase kinase [Km =1.1 micron, V (rel) = 62] and phosphorylase [Km = 5.0 micron, V (rel) = 100]. The dephosphorylation of inhibitor -1 was inhibited by inhibitor-2, indicating that it was catalysed by protein phosphatase-III, and not by another enzyme that might be contaminating the preparation. When protein phosphatase-III was diluted into buffers containing excess EDTA, it lost activity initially, but after 90 min, the activity reached a plateau that remained stable for at least 20h. The initial loss in activity varied with the substrate that was tested; it was 20-30% with phosphorylase a, 50-60% with phosphorylase kinase and greater than or equal to 95% with inhibitor-1. This form of protein phosphatase-III was inhibited by inhibitor-1 in a noncompetitive manner, and the Ki for inhibitor-1 was 1.6 +/- 0.3 nM. The phosphorylase phosphatase, phosphorylase kinase phosphatase and glycogen synthetase phosphatase activities of protein phosphatase-III were inhibited in an identical manner by inhibitor-1. This result emphasizes the potential importance of inhibitor-1 in the regulation of glycogen metabolism, since it can influence the state of phosphorylation of three different enzymes. The formation of the inactive complex between inhibitor-1 and protein phosphatase-III was reversed by incubation with trypsin (which destroyed inhibitor-1, but not protein phosphatase-III) or by dilution of the inactive complex. Kinetic studies, using the form of protein phosphatase-III which dephosphorylated inhibitor-1 very rapidly, demonstrated three unusual features of the system: (a) inhibitor-1 was still as powerful and inhibitor of the dephosphorylation of phosphorylase a and phosphorylase kinase a even under conditions where it was being rapidly dephosphorylated; (b) inhibitor-1 was not an inhibitor of its own dephosphorylation; (c) phosphorylase a did not effect the rate of dephosphorylation of inhibitor-1 even when it was present in a 50-fold molar excess over inhibitor-1. The result of these three properties is that inhibitor-1 is preferentially dephosphorylated by protein phosphatase-III even in the presence of a large excess of other phosphoprotein substrates. Inhibitor-1 was also dephosphorylated by protein phosphatase-II. The kinetic constants for the dephosphorylation of inhibitor-1 [Km = 2.8 micron, V (rel) = 200] and the alpha-subunit of phosphorylase kinase [Km = 3.7 micron, V (rel) = 100]were comparable...
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PMID:The regulation of glycogen metabolism. Phosphorylation of inhibitor-1 from rabbit skeletal muscle, and its interaction with protein phosphatases-III and -II. 20 45

The ATP.Mg-dependent type-1 protein phosphatase and its activating factor (protein kinase FA) were identified to exist in brain synaptosome. The inactive protein phosphatase was found to exist in the synaptosomal cytosol whereas its activating factor (protein kinase FA) was present in the synaptosomal membrane, indicating that the inactive protein phosphatase and its activating factor FA are localized in two separate subcellular compartments. The membrane-bound FA was found to exist in two forms; approximately 75% of FA is inactive and trypsin-resistant, whereas 25% of FA is active and trypsin-labile. When membranes were incubated with exogenous phospholipase C, the inactive/trypsin-resistant FA could be activated and sequestered to become the active/trypsin-labile FA in a time- and dose-dependent manner. Taken together, the results provide initial evidence that the activation-sequestration of membrane-bound protein kinase FA may represent one mode of control modulating the activity of protein kinase FA and thereby to activate protein phosphatase in brain synaptosome, representing an efficient regulatory mechanism for regulating neurotransmission in the central nervous system.
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PMID:The mechanism of activation of protein kinase FA (the activator of type-1 protein phosphatase) in brain synaptosomes. 131 12

The protein B-50 is dephosphorylated in rat cortical synaptic plasma membranes (SPM) by protein phosphatase type 1 and 2A (PP-1 and PP-2A)-like activities. The present studies further demonstrate that B-50 is dephosphorylated not only by a spontaneously active PP-1-like enzyme, but also by a latent form after pretreatment of SPM with 0.2 mM cobalt/20 micrograms of trypsin/ml. The activity revealed by cobalt/trypsin was inhibited by inhibitor-2 and by high concentrations (microM) of okadaic acid, identifying it as a latent form of PP-1. In the presence of inhibitor-2 to block PP-1, histone H1 (16-64 micrograms/ml) and spermine (2 mM) increased B-50 dephosphorylation. This sensitivity to polycations and the reversal of their effects on B-50 dephosphorylation by 2 nM okadaic acid are indicative of PP-2A-like activity. PP-1- and PP-2A-like activities from SPM were further displayed by using exogenous phosphorylase alpha and histone H1 as substrates. Both PP-1 and PP-2A in rat SPM were immunologically identified with monospecific antibodies against the C-termini of catalytic subunits of rabbit skeletal muscle PP-1 and PP-2A. Okadaic acid-induced alteration of B-50 phosphorylation, consistent with inhibition of protein phosphatase activity, was demonstrated in rat cortical synaptosomes after immunoprecipitation with affinity-purified anti-B-50 immunoglobulin G. These results provide further evidence that SPM-bound PP-1 and PP-2A-like enzymes that share considerable similarities with their cytosolic counterparts may act as physiologically important phosphatases for B-50.
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PMID:Protein phosphatases 1 and 2A dephosphorylate B-50 in presynaptic plasma membranes from rat brain. 131 70

The differential assay conditions for protein phosphatases PP1, PP2A, and PP2C were extensively studied by using crude extracts from mouse lymphoid tissues as enzyme sources. Under these conditions, the protein phosphatase activities were measured in MRL/MpJ-lpr/lpr mice (MRL/lpr mice), autoimmune-prone mice, and MRL/MpJ(-)+/+ mice (MRL/+/+ mice) and C3H/HeJ mice as the controls. In MRL/lpr mice, significant alterations in protein phosphatase activities from those in the control mice were demonstrated. In spleen and liver from MRL/lpr mice, potential activities of PP1 and PP2A were distinctly elevated over those of the control mice. These elevations appeared to be due to accumulation of the abnormal lymphocytes that emerged in MRL/lpr mice. Although the PP1 activity in MRL/lpr lymph nodes was lower than those of normal spleen and thymus, it was greatly increased by Co(2+)-trypsin treatment so that the PP1 activity of MRL/lpr lymph nodes was the highest among those of all the tissues examined. In contrast, PP2C activity showed no remarkable alteration in the autoimmune disease model mice as compared with that in the control mice. These results demonstrated a specific elevation in potency of protein dephosphorylation in the tissues of MRL/lpr mice, suggesting a new explanation for the defect in signal transduction in this disease.
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PMID:Increase in potential activities of protein phosphatases PP1 and PP2A in lymphoid tissues of autoimmune MRL/MpJ-lpr/lpr mice. 131 90

We determined the mRNA levels and the activities in nuclear and non-nuclear fractions of protein phosphatase type 1 (PP1) and type 2A (PP2A) through the cell cycle in synchronized mouse NIH3T3 fibroblasts. The mRNA level for PP1 alpha was gradually elevated in late G1 phase, began to decrease in M phase, and reached the control level with entering into the next G1 phase. The mRNA level for PP2A was rapidly increased in early G1 phase, kept at the high level, and decreased after S phase. In nuclear fractions of cells, spontaneous activities of both PP1 and PP2A were gradually increased until M phase and rapidly decreased with entering the next G1 phase, while in non-nuclear fraction such dramatic alterations were not observed. Potential activities of PP1 in both fractions revealed by Co(2+)-trypsin treatment showed an oscillaion patterns similar to those of the spontaneous activities. These results strongly suggest that cell cycle dependent gene expressions and activities of PP1 and PP2A play roles in DNA synthesis and mitosis during the cell cycle.
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PMID:Cell cycle dependent gene expressions and activities of protein phosphatases PP1 and PP2A in mouse NIH3T3 fibroblasts. 132 93

Latent protein phosphatase, Fc.M, was purified from porcine heart extracts by a procedure involving precipitation at pH 5.0, DEAE-Sephacel chromatography, ammonium sulfate fractionation, chromatography on phenyl-Sepharose, Biogel-A 0.5m and poly-L-lysine-agarose. The purified enzyme had a specific activity of 12,200 nanomoles of phosphate released from phosphorylase a/mg protein when assayed following activation by pretreatment with Mn++ and trypsin in the presence of 0.2 M NaCl. The enzyme is a heterodimer of 66 kDa composed of a catalytic (37 kDa) and a modulator (31 kDa) subunit.
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PMID:Purification of porcine heart latent protein phosphatase Fc.M. 133 3

1. Acetyl-CoA carboxylase was purified to homogeneity, in the presence of protein phosphatase inhibitors, from rat liver sampled without freeze-clamping. The enzyme was in a highly phosphorylated state (4.8 mol/subunit) of low specific activity, and could be dramatically reactivated by treatment with protein phosphatase-2A. Amino acid sequencing and fast-atom-bombardment mass spectrometry showed that the enzyme was phosphorylated in Ser79, Ser1200 and Ser1215, the three sites known to be phosphorylated in cell-free assays by the AMP-activated protein kinase. 2. The inactive enzyme could also be completely reactivated using a limited treatment with trypsin, which removes the N-terminal segment containing Ser79 and reduces the phosphate content to 3.5 mol/subunit. These results strengthen previous findings that it is phosphorylation at Ser79 by the AMP-activated protein kinase that is responsible for the inactivation, and not the phosphorylation of the 220-kDa core fragment (which contains Ser1200 and Ser1215). 3. Analysis of the phosphorylation state of Ser79 in acetyl-CoA carboxylase from rat liver showed that phosphorylation occurs post mortem if freeze-clamping is not used. The higher phosphorylation observed in extracts made without freeze-clamping correlates with a large increase in AMP and decrease in ATP (presumably caused by hypoxia during removal of the liver), and with increased activity of the AMP-activated protein kinase. These results provide a rational explanation for the post mortem phosphorylation events, and re-emphasize the point that rapid cooling of cells and tissues is essential when measuring the expressed activity of acetyl-CoA carboxylase (as well as 3-hydroxy-3-methylglutaryl-CoA reductase). 4. Using the freeze-clamping procedure, the ratio of 'expressed' activity (measured in the presence of protein phosphatase inhibitors) to 'total' activity (measured after complete dephosphorylation) of rat liver acetyl-CoA carboxylase showed a marked diurnal rhythm, changing from 50% in the active form in the middle of the dark period to less than 10% active in the middle of the light period. The very low activity in the light period was associated with a high level of phosphorylation in Ser79. This diurnal rhythm is very similar to that previously described for the phosphorylation of 3-hydroxy-3-methylglutaryl-CoA reductase, another substrate for the AMP-activated protein kinase. Neither the activity of the AMP-activated protein kinase nor the content of AMP, ADP or ATP changed between the dark or light periods.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Diurnal rhythm of phosphorylation of rat liver acetyl-CoA carboxylase by the AMP-activated protein kinase, demonstrated using freeze-clamping. Effects of high fat diets. 134 20

Glycogen synthase is activated by protein phosphatase type-1 (PP-1). The spontaneous PP-1 activity accounts for only a small fraction of total PP-1 activity, which can be exposed by trypsin digestion of inhibitor proteins in the presence of Mn2+. We determined total PP-1 activity in muscle biopsies from insulin-sensitive and -resistant nondiabetic Pima Indians. Inhibitor-2 sensitive PP-1 represented 90% of total phosphatase activity. Spontaneous and total PP-1 activities were reduced in insulin resistant subjects (P less than 0.05-0.01), suggesting that the reduced PP-1 activity is not the result of inhibition by trypsin-labile phosphatase regulatory subunits. This difference was further investigated by Western blots using two different antibodies. An antibody raised against the rabbit muscle PP-1 catalytic subunit was used to analyze muscle extracts concentrated by DEAE-Sepharose adsorption. An antibody raised against a peptide derived from the COOH-terminal end of the PP-1 catalytic subunit was used to analyze crude muscle extracts. Both antibodies recognized a PP-1 catalytic subunit of approximately 33 kD, which unexpectedly was more abundant in insulin-resistant subjects (P less than 0.05-0.01). The increase in the tissue PP-1 protein content may be a response to compensate for the impairment in the enzyme activity.
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PMID:Deficiency in phosphorylase phosphatase activity despite elevated protein phosphatase type-1 catalytic subunit in skeletal muscle from insulin-resistant subjects. 165 44

The site specificity of tyrosine hydroxylase phosphorylation in intact PC12 cells, labeled with 32Pi, was investigated. Digestion of 32P-tyrosine hydroxylase with trypsin produced five distinct 32P-labeled peptides (termed PC-1 through PC-5). Sequencing of the peptides revealed four acceptor sites: Ser8, Ser19, Ser31, and Ser40. The phosphorylation site in peptides PC-1 (AV-SEQDAK) and PC-2 (RAVSEQDAK) was identified as Ser19. Agents which cause calcium influx increased 32P incorporation into tyrosine hydroxylase at Ser19. PC-3 was identified as QAEAVTSPR, which contains the phosphorylation site Ser31. Nerve growth factor and phorbol dibutyrate increased 32P incorporation into Ser31. PC-4 was identified as the N-terminal amino acid sequence ((M)PTPSAPSPQPK), and the 32P incorporation occurred at Ser8. Of the agents tested, only okadaic acid (a protein phosphatase inhibitor) increased the phosphorylation of Ser8. PC-5 was shown to contain Ser40. Treatment of the PC12 cells with cAMP-acting agents increased 32P incorporation into Ser40. The present results demonstrate that some, but not all, of the phosphorylation sites demonstrated previously in vitro exist in situ. Conversely, the identification of Ser31 establishes a physiological phosphorylation site not previously reported in vitro. These four sites account for most, if not all, of the diversity in tryptic phosphopeptides reported previously for rat tyrosine hydroxylase.
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PMID:Phosphorylation of tyrosine hydroxylase in situ at serine 8, 19, 31, and 40. 197 63

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