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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)
Two forms of type-1
protein phosphatase
activating factor (FA) termed FA1 and FA2 have been identified in plasma membranes of pig brain. FA1 is spontaneously active and
trypsin
-labile whereas FA2 is inactive and
trypsin
-resistant. Phospholipid reconstitution studies further indicate that the FA activity in the neutral phospholipids-reconstituted complex is spontaneously active and
trypsin
-labile whereas the FA activity in the acidic phospholipids-reconstituted complex is
trypsin
-resistant and inactive. The results indicate that inactive FA2 may have its catalytic domain interacted with negatively-charged phospholipids in brain membranes. This provides initial evidence for the regulation of protein kinase FA (a transmembrane signal of insulin and epidermal growth factor) in the central nervous system.
...
PMID:Regulation of protein kinase FA (a transmembrane signal of insulin and epidermal growth factor) in the brain. 215 99
Protein kinase FA (an activating factor of ATP.Mg-dependent
protein phosphatase
) has been characterized to exist in two forms in the purified brain myelin. One form of kinase FA is spontaneously active and
trypsin
-labile, whereas the other form of kinase FA is inactive and
trypsin
-resistant, suggesting a different membrane topography with active FA exposed on the outer face of the myelin membrane and inactive FA buried within the myelin membrane. When myelin was solubilized in 1% Triton X-100, all kinase FA became active and
trypsin
-labile. Phospholipid reconstitution studies further indicated that when kinase FA was reconstituted in acidic phospholipids, such as phosphatidylinositol and phosphatidylserine, the enzyme activity was inhibited in a dose-dependent manner, suggesting that kinase FA interacts with acidic phospholipids which inhibit its activity. Furthermore, when myelin was incubated with exogenous phospholipase C, the inactive/
trypsin
-resistant FA could be converted to the active/
trypsin
-labile FA in a time- and dose-dependent manner. Taken together, it is concluded that membrane phospholipids play an important role in modulating the activity of kinase FA in the brain myelin. It is suggested that phospholipase C may mediate the activation-sequestration of inactive/
trypsin
-resistant kinase FA in the brain myelin through the phospholipase C-catalyzed degradation of acidic membrane phospholipids. The activation-sequestration of protein kinase FA may represent one mode of control modulating the activity of kinase FA in the central nervous system myelin.
...
PMID:On the mechanism of activation of protein kinase FA (an activating factor of ATP.Mg-dependent protein phosphatase) in brain myelin. 216 Feb 45
Protein phosphatases associated with the particulate fraction from rat liver were studied by chromatographing the fraction on a DEAE-cellulose column and assaying the eluate with phosphorylase alpha and glycogen synthase D as substrates. Phosphorylase phosphatase activity emerged as two peaks, termed P-1 and P-2 in order of elution, both of which were inhibited by Mn2+ and Mg2+. P-1 and P-2 were Mr = 50,000 and 32,000 proteins, respectively, and when treated with
trypsin
, P-1 converted to a form indistinguishable from P-2, to which
protein phosphatase
inhibitor-2 was a potent inhibitor. Thus P-2 appears to be the catalytic subunit of type-1
protein phosphatase
even though it has been degrated proteolytically as evidenced by its relatively low Mr. The elution profile of glycogen synthase phosphatase activity was entirely different. The activity obtained with 5 mM Mn2+ resolved into three peaks, the second-migrating M-2 being the largest. M-2 is an Mr = 70,000 protein; but an attempt to purify it has been unsuccessful giving a product of Mr = 40,000 and closely similar to the type-1 catalytic subunit in properties including inhibition by inhibitor-2. These results suggest that phosphatases P-1 and M-2 have a common catalytic subunit (type-1), which is bound to different "regulatory" subunits. M-2 distributes in glycogen particles and microsomes evenly while P-1 is almost exclusively in microsomes.
...
PMID:Characterization of protein phosphatases associated with the particulate fraction from rat liver. 216 61
Detergent-purified myofibrils from bovine heart contained very little spontaneously active
protein phosphatase
1 activity. Phosphatase 1, extracted from the myofibrils by freeze-thawing in the presence of 500 mM KCl, was markedly activated by cobalt/
trypsin
treatment. Myofibril phosphatase 1 was separated from phosphatase 2A by chromatography on heparin-Sepharose. The phosphatase 1 was isolated in a latent form. Pretreatment with
trypsin
released free catalytic subunit and increased activity about 25-fold. Addition of cobalt with the
trypsin
increased activity another 2-fold. The latent myofibril phosphatase 1 did not appear to be the same as previously characterized forms of
protein phosphatase
1. We suggest that cardiac myofibril phosphatase 1 contains a unique inhibitory subunit which directs the enzyme to the myofibril and regulates the dephosphorylation of myofibril phosphoproteins.
...
PMID:Evidence for a latent form of protein phosphatase 1 associated with cardiac myofibrils. 253 29
The activation of porcine heart latent
protein phosphatase
(Fc.M) by pretreatment with Mn++ followed by
trypsin
(Mn/
trypsin
) can be stimulated 2.5-fold by including NaCl or KCl in the activation mixtures. The salts also stimulated the activation of the enzyme by Mn++ to the same level as that obtained by Mn/
trypsin
pretreatment in the absence of salt. The presence of salt in both the Mn++ and Mn/
trypsin
activations decreased the Mn++ requirement 10-fold in each case. Treatment of latent Fc.M by Mn/
trypsin
in the presence of 0.2 M NaCl or KCl offers a convenient method of expressing the full potential activity of the
protein phosphatase
.
...
PMID:Salt stimulation of the activation of latent protein phosphatase, Fc.M, by Mn++ and by Mn/trypsin. 254 11
A form of glycogen synthase kinase designated GSK-M3 was purified 4000-fold from rat skeletal muscle by phosphocellulose, Affi-Gel blue, Sephacryl S-300 and carboxymethyl-Sephadex column chromatography. Separation of GSK-M from the catalytic subunit of the cAMP-dependent protein kinase was facilitated by converting the catalytic subunit to the holoenzyme form by addition of the regulatory subunit prior to the gel filtration step. GSK-M had an apparent Mr 62,000 (based on gel filtration), an apparent Km of 11 microM for ATP, and an apparent Km of 4 microM for rat skeletal muscle glycogen synthase. The kinase had very little activity with 0.2 mM GTP as the phosphate donor. Kinase activity was not affected by the addition of cyclic nucleotides, EGTA, heparin, glucose 6-P, glycogen, or the heat-stable inhibitor of cAMP-dependent protein kinase. Phosphorylation of glycogen synthase from rat skeletal muscle by GSK-M reduced the activity ratio (activity in the absence of Glc-6-P/activity in the presence of Glc-6-P X 100) from 90 to 25% when approximately 1.2 mol of phosphate was incorporated per mole of glycogen synthase subunit. Phosphopeptide maps of glycogen synthase obtained after digestion with CNBr or
trypsin
showed that this kinase phosphorylated glycogen synthase in serine residues found in the peptides containing the sites known as site 2, which is located in the N-terminal CNBr peptide, and site 3, which is located in the C-terminal CNBr peptide of glycogen synthase. In addition to phosphorylating glycogen synthase, GSK-M phosphorylated inhibitor 2 and activated ATP-Mg-dependent
protein phosphatase
. Activation of the
protein phosphatase
by GSK-M was dependent on ATP and was virtually absent when ATP was replaced with GTP. GSK-M had minimal activity toward phosphorylase b, casein, phosvitin, and mixed histones. These data indicate that GSK-M, a major form of glycogen synthase kinase from rat skeletal muscle, differs from the known glycogen synthase kinases isolated from rabbit skeletal muscle.
...
PMID:Characterization of GSK-M, a glycogen synthase kinase from rat skeletal muscle. 282 16
We have examined the characteristics of partially purified forms of rabbit skeletal muscle type-1
protein phosphatase
(PP-1). Over 90% of PP-1 in unfractionated extracts and in glycogen particles was inactive, but could be activated by the divalent cations, Mn2+ or Co2+ (Me2+) plus
trypsin
. Gel filtration of muscle extracts revealed two inactive forms of PP-1; one activated by Me2+ alone or Me2+ plus
trypsin
, and a second containing inhibitor-2 and activated only by Me2+ plus
trypsin
. The kinetics of Me2+ plus
trypsin
activation revealed that after DEAE-chromatography, PP-1 was altered from the forms in crude extracts, gel filtered extracts or glycogen particles. The results indicate that the purified form of PP-1 catalytic subunit has properties which distinguish it from the forms of the enzyme in muscle extracts.
...
PMID:Latent forms of type-1 protein phosphatase in rabbit skeletal muscle. 282 77
Rat fat cells contain three species of spontaneously active inhibitor proteins of
protein phosphatase
1, as resolved by SDS-PAGE, with apparent molecular masses of 40 kDa, and 28 kDa respectively. The 33-kDa, thermostable inhibitor was highly purified from bovine adipose tissue and shown to be very similar to inhibitor-2 of skeletal muscle. It was phosphorylated, on threonine only, by glycogen synthase kinase 3. It formed an inactivated complex with
protein phosphatase
1, that was reactivated by incubation with ATP-Mg and glycogen synthase kinase 3. By gel filtration it had a Stokes radius of 3.4 nm. Peptide and phosphopeptide maps, generated by Staphylococcus aureus V8 proteinase,
trypsin
or thermolysin, of the inhibitor and of the skeletal muscle inhibitor-2 were similar. The 40-kDa inhibitor, which was denatured by boiling, represents a novel
protein phosphatase
inhibitor protein or an undegraded precursor of inhibitor-2. The total activity of inhibitor-2-like material (thermostable and macromolecular) in an adipocyte cytosol extract corresponded to an intracellular concentration of 0.3 microM inhibitor-2.
...
PMID:Adipose tissue protein phosphatase inhibitor-2. 282 48
1. The phosphorylase phosphatase and glycogen-synthase phosphatase activities associated with the glycogen particles from rat liver were progressively inhibited by incubation with modulator protein. However, the phosphorylase phosphatase activity of the catalytic subunit was entirely recovered after destruction of the modulator and the regulatory subunit(s) by
trypsin
. 2. Inhibition of
protein phosphatase
G by modulator was associated with a translocation of the phosphorylase phosphatase activity (measured after incubation with
trypsin
) from glycogen to the soluble fraction. The degree of inhibition of phosphatase G corresponded closely to the extent to which the phosphorylase phosphatase activity was released from the glycogen particles. Incubation of glycogen-free
protein phosphatase
G with modulator did not change the affinity of the enzyme for added glycogen, but decreased the amount of phosphatase that could be bound to glycogen. 3. The phosphorylase phosphatase activity that was released from the glycogen particles by modulator migrated on gel filtration as a complex (Mr 106,000) of the catalytic subunit with modulator. Phosphorylase phosphatase activity could be transferred from glycogen-bound
protein phosphatase
G to modulator that was covalently bound to Sepharose. After elution from the column, the enzyme was identified as the free catalytic subunit (Mr 37,000).
...
PMID:The modulator protein dissociates the catalytic subunit of hepatic protein phosphatase G from glycogen. 283 41
The intravenous administration of glucagon to anesthetized rats resulted within 5 min in a 20% drop in the hepatic phosphorylase phosphatase activity, as measured in a post-mitochondrial supernatant at low dilution, but it did not affect the activity of glycogensynthase phosphatase. On the other hand, the injection of insulin plus glucose caused increases by about 35% in both phosphatase activities. Upon subcellular fractionation these effects were recovered in the cytosol, but not in the glycogen/microsomal fraction. However, activity changes in the latter fraction were observed after recombination with the liver cytosol from a hormone-treated animal. Preincubation of the liver cytosol with modulator protein (a specific inhibitor of type-1 protein phosphatases) cancelled the activity changes induced by insulin plus glucose. No hormonal effects on hepatic
protein phosphatase
activities were observed when the fractions were either diluted an additional 10-fold or pretreated with
trypsin
. An acute hormonal regulation of protein phosphatases could also be demonstrated in the perfused liver. When added to the perfusion medium, glucose as well as insulin increased the cytosolic
protein phosphatase
activities by about 25%. Their effect was additive, irrespective of the order of addition. On the other hand, the addition of glucagon and/or vasopressin resulted in a 20% drop in the phosphorylase phosphatase activity. The presence of glucagon did not interfere with the effectiveness of insulin, and vice versa. The changes in the phosphorylase phosphatase activities induced by glucagon, insulin, and glucose represented changes in the Vmax only. We propose that the acute control of the hepatic glycogen synthase phosphatase and phosphorylase phosphatase activities is mediated by transferable, cytosolic effector(s).
...
PMID:Acute regulation of hepatic protein phosphatases by glucagon, insulin, and glucose. 284 53
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