Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

In regenerating rat liver, an elevated protein kinase activity was detected which phosphorylated ribosomal protein S6 and histones. The properties of this enzyme were closely similar with those of protease-activated protein kinase C with Mr 45,000. During the study of the mechanism of proteolytic activation, type III protein kinase C (encoding alpha-sequence) was shown to be subjected to limited proteolysis by trypsin-like protease and converted to protein kinase M in ionic strength- and pH-dependent manner. This reaction was stimulated in the presence of Ca2+ and phospholipid under slightly higher ionic strength condition than physiological level (greater than 140 mM NaCl) and alkaline pH (7.5-8.0). These results suggest that activation of Na+/H+ exchanger in plasma membrane may trigger this type of proteolytic activation of protein kinase C. In addition to protein kinase M, another type of protease-activated kinase with Mr 80,000 was detected when limited proteolysis of protein kinase C was performed on inactive form of this enzyme (in the absence of either Ca2+ or phospholipid or both activators) under lower ionic strength condition. The molecular mass of this active enzyme was slightly smaller (approximately 200) than that of native protein kinase C. However, it is not clear at this time whether this small fragment was released from amino-terminal or carboxy-terminal domain to make protein kinase C partially active in the absence of Ca2+ and phospholipid. Although it has been proposed that proteolytic degradation of protein kinase C is involved in down regulation of this enzyme, the physiological significance of these two types of protease-activated forms of protein kinases in liver has remained obscure.
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PMID:Protease-activated protein kinase C in rat liver. 206 12

A role for second messenger-regulated protein kinases in the early post-IL-3 receptor signal transduction pathway was investigated in the mast cell/megakaryocyte line R6-XE.4. The activity of the calcium- and phospholipid-dependent protein kinase C (PKC) was assessed by the ability of the enzyme to phosphorylate histone H1 in the presence of calcium, diacylglycerol, and phosphatidylserine or after proteolytic activation of PKC with trypsin. In high serum-supplemented cells, but not in cells that were preincubated in serum-deficient media for 6 h, subsequent treatment for 15 min with synthetic IL-3 (10 micrograms/ml) caused up to a sixfold increase in the calcium- and lipid-stimulated histone H1 phosphorylating activity of particulate-associated PKC after fractionation on MonoQ. However, there was no corresponding reduction of cytosolic PKC activity. Therefore, IL-3 appeared to modify the activity of preexisting membrane-associated PKC rather than eliciting its recruitment from the cytoplasm in R6-XE.4 cells. This was in contrast to the situation with FDC-P1 cells, where IL-3 induced PKC translocation. IL-3 also stimulated a cytosolic protein kinase that phosphorylated a synthetic peptide patterned after a phosphorylation site in ribosomal protein S6, but this IL did not alter the activity of cAMP-dependent protein kinase.
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PMID:IL-3-induced activation of protein kinases in the mast cell/megakaryocyte R6-XE.4 line. 230 40

The relative abilities of insulin and the phorbol ester tumor promoter 12-O-tetradecanoyl phorbol 13-acetate (TPA) to lead to the phosphorylation of ribosomal protein S6 in vivo were compared in a Reuber H35 hepatoma cell line shown previously to be highly responsive to these agents. In quiescent (serum-starved) cultures of H35 cells incubated with 32Pi, both insulin (10(-7) M) and TPA (1.6 X 10(-6) M) resulted in the marked phosphorylation of S6 compared to the unstimulated cultures as evidenced by an increase in radioactivity associated with S6 and by a corresponding shift in the mobility of phosphorylated S6 during two-dimensional electrophoresis. Following incubation with insulin or TPA, greater than 95% of the phosphate was in derivatives containing four to five phosphate groups. The site-specific phosphorylation of S6 in response to both optimal and suboptimal concentrations of insulin and/or TPA was examined by two-dimensional peptide mapping of the trypsin-digested ribosomal protein S6. The tryptic phosphopeptides of S6 obtained following treatment of the H35 cells with insulin and/or TPA were identical and were the same phosphopeptides as those observed previously following the phosphorylation in vitro of 40 S ribosomal subunits from reticulocytes with purified protease-activated kinase II (Perisic, O., and Traugh, J. A. (1983) J. Biol. Chem. 258, 13998-14002).
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PMID:Insulin- and phorbol ester-stimulated phosphorylation of ribosomal protein S6. 315 32

Ca2+/phospholipid-dependent protein kinase (protein kinase C) and trypsin-activated protein kinase C (protein kinase M) phosphorylated the synthetic peptide R1-A13 (Arg-Arg-Leu-Ser-Ser-Leu-Arg-Ala-Ser-Thr-Ser-Lys-Ala) which contains both cAMP- and insulin-regulated phosphorylation sites in rat liver ribosomal protein S6 [Wettenhall, R. E. H. & Morgan, F. J. (1984) J. Biol. Chem. 259, 2084-2091]. Both enzymes showed essentially the same kinetic properties; V and apparent Km were determined to be 0.16 mumol min-1 mg-1 and 30 microM, respectively. At first, tryptic phosphopeptides were prepared at the early stage of phosphorylation and purified by high-performance liquid chromatography (HPLC). Through these analyses, four radioactive peptides were isolated. When protein kinase C was employed, phosphorylation was observed on all four peptides in a Ca2+/phospholipid-dependent manner. Irrespective of the protein kinase employed, phosphate incorporation into these peptides increased linearly with time; the peptide concentration did not affect the ratio of phosphate distribution into these four peptides. Analysis of amino acid composition and phosphoamino acid of radioactive peptides obtained after extensive phosphorylation showed that phosphates were incorporated into Ser-4, Ser-5, Ser-9 and Ser-11. The latter three serine residues were major phosphorylated sites. When rat liver 40-S ribosomal subunits were employed as substrate for protein kinases C and M, a radioactive protein with Mr,app = 31,000, which corresponded to S6 protein, was detected on an autoradiogram of a sodium dodecyl sulfate/polyacrylamide slab gel. The rate of phosphorylation with protein kinase M was twice as fast as that with protein kinase C. The elution profile of radioactive tryptic peptides in HPLC suggest that phosphorylation occurred on the sites in S6 protein corresponding to Ser-5, Ser-9 and Ser-11 as major sites and Ser-4 as the minor one. These results indicate that protein kinase C has an ability to recognize at least four sites derived from hormone-dependent phosphorylation sites in ribosomal protein S6 irrespective of the mode of activation of this enzyme.
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PMID:Comparative studies on phosphorylation of synthetic peptide analogue of ribosomal protein S6 and 40-S ribosomal subunits between Ca2+/phospholipid-dependent protein kinase and its protease-activated form. 331 52

A protein kinase activity (S6PK) that phosphorylates ribosomal protein S6 has been detected in cytosolic extracts prepared from an insulin-sensitive mouse fibroblast-melanoma hybrid cell line. The activity of this enzyme is greatly increased in cells that have been stimulated with insulin or serum for 30 min before preparation of the extract. In the parental melanoma cells, which are insensitive to the growth-stimulatory action of insulin, the activity of the enzyme is lower than in the hybrid cells and is not increased in response to insulin. The insulin-sensitive, serum-sensitive S6PK from the hybrid cells is eluted as a single peak from diethylaminoethyl (DEAE)-cellulose between 0.15 and 0.2 M KCl. The apparent mol wt of the enzyme, as determined by gel permeation chromatography, is approximately 105,000. A second S6 kinase activity from the hybrid cells is trypsin dependent and elutes from DEAE-cellulose at a lower salt concentration than S6PK. In contrast to S6PK, the trypsin-dependent S6 kinase activity does not vary in a consistent manner in response to insulin or serum. Fractions obtained from DEAE-cellulose chromatography of extracts of the hybrid cells have also been assayed for ability to phosphorylate the synthetic octapeptide Arg-Arg-Leu-Ser-Ser-Leu-Arg-Ala (S6-1), the structure of which is based on a phosphorylated region of the S6 protein. Two trypsin-dependent peaks of protein kinase activity have been found to phosphorylate this peptide, one eluting at 0.05 M KCl and the other at 0.10-0.15 M KCl. The first peak elutes at the same salt concentration as the trypsin-dependent protein kinase(s) that phosphorylate ribosomal protein S6, while the second elutes slightly, but reproducibly ahead of S6PK. Several properties of the second peak of S6-1 phosphorylating activity suggest that it is not S6PK.
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PMID:Insulin-sensitive, serum-sensitive protein kinase activity that phosphorylates ribosomal protein S6 in cultured fibroblast-melanoma hybrid cells. 352 18

Treatment of 3T3-L1 cells with 0.1-1.0 nM insulin results in rapid (5-15 min) activation of a soluble protein kinase that phosphorylates serine residues in ribosomal protein S6. The insulin-stimulated kinase activity is detectable in confluent, nongrowing preadipocytes and adipocytes. In the presence of 2 micrograms of cycloheximide per ml, preconfluent 3T3-L1 cells also respond to insulin by acquiring an S6 kinase activity whose properties are the same as those of the enzyme activity elicited by insulin alone in growth-inhibited cells. The principal insulin-stimulated S6 kinase has a Mr of approximately equal to 50,000-60,000; there is a variable amount of activity that sediments with a Mr of about 80,000. The soluble enzyme exhibits optimal activity between pH 8 and pH 9, requires Mg2+ (10-20 mM), and is inhibited by Ca2+ (0.5 mM), Mn2+ (0.05 mM), and NaF (30 mM). GTP cannot substitute for ATP in the phosphotransferase reaction; cAMP, cGMP, phosphatidylserine plus diolein, the cAMP-dependent protein kinase inhibitor, and heparin (0.7 micrograms/ml) are without effect. Although treatment of 3T3-L1 cells with insulin does not influence the activity or the subcellular distribution of the phospholipid and Ca2+-dependent protein kinase C, exposure to the phorbol tumor promoter phorbol 12-myristate 13-acetate (PMA) results in translocation of protein kinase C to the membrane and activation of a soluble phospholipid and Ca2+-independent S6 protein kinase that has the same magnitude of activity and sedimentation behavior as the insulin-induced activity. Trypsin treatment of either 3T3-L1 cytosolic extracts or partially purified 3T3-L1 protein kinase C generates a small amount of S6 kinase activity of Mr 50,000. This activity, resolved by sucrose gradient centrifugation, is less active than that elicited by either insulin or PMA and, unlike the activities generated by insulin and PMA, is associated with histone kinase activity. The data suggest that the S6 kinase elicited by either insulin or PMA is neither protein kinase C, its phospholipid, and Ca2+-independent proteolytic derivative nor the result of proteolytic activation of an inactive proenzyme that can be reproduced by trypsin treatment of cell extracts in vitro.
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PMID:Activation of S6 kinase activity in 3T3-L1 cells by insulin and phorbol ester. 389 33

A trypsin-activated protein kinase has been isolated from rat liver using a peptide analogue of ribosomal protein S6 as a substrate in kinase assays. The structure of the peptide, Arg-Arg-Leu-Ser-Ser-Leu-Arg-Ala, was based on a region of S6 containing both an insulin- and cyclic AMP-regulated phosphorylation site. The trypsin-activated protein kinase phosphorylated a corresponding site in the peptide analogue and ribosomal protein S6 that was distinct from the preferred site for cyclic AMP-dependent protein kinase. Ribosomal S6 contained at least one other major site for the trypsin-activated protein kinase.
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PMID:Phosphorylation of ribosomal protein S6 and a peptide analogue of S6 by a protease-activated kinase isolated from rat liver. 647 43

A cyclic nucleotide-independent protein kinase, protease-activated kinase II, which incorporates up to four phosphates into 40 S ribosomal protein S6, has been purified from the postribosomal supernatant of rabbit reticulocytes. Protease-activated kinase II was purified as an inactive proenzyme by chromatography on DEAE-cellulose, phosphocellulose, Sephadex G-150, and hydroxylapatite. The enzyme was activated in vitro by limited digestion with trypsin or chymotrypsin. No other mode of activation for protease-activated kinase II in vitro was identified. The proenzyme had a molecular weight of 80,000 as measured by gel filtration; following tryptic digestion, the molecular weight of the activated protein kinase was 45,000-55,000. Protease-activated kinase II required Mg2+ for activity but was inhibited by other divalent cations, monovalent cations, and fluoride ion. ATP was the phosphoryl donor in the phosphorylation reaction; GTP had no effect. In vitro, multiple phosphorylation of S6 was observed with some phosphate incorporated into S10. Phosphorylation of S6 by protease-activated kinase II has been shown to be stimulated in serum-starved 3T3-L1 cells by insulin (Perisic, O., and Traugh, J. A. (1983) J. Biol. Chem. 258, 9589-9592) and in reticulocytes by altering the pH of the incubation medium (Perisic, O., and Traugh, J. A. (1983) J. Biol. Chem. 258, 13998-14002.
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PMID:Cyclic nucleotide-independent protein kinases from rabbit reticulocytes. Purification and characterization of protease-activated kinase II. 664 62

Two protein kinases have been partially purified from rabbit reticulocytes and shown to be activated by limited proteolysis with trypsin [S.M. Tahara and J.A. Traugh (1981) J. Biol. Chem. 256, 11558-11564; P.T. Tuazon, W.C. Merrick, and J.A. Traugh (1980) J. Biol. Chem. 255, 10954-10958]. Reticulocyte lysate was examined for protease activities which might be involved in activation of the protein kinases in vivo. Two neutral proteases, differentially activated by Fe2+ and Ca2+, were identified and partially purified. The Ca2+-stimulated protease specifically activated protease-activated kinase II; no effect was observed on protease-activated kinase I. The Fe2+-stimulated protease was not active on either protein kinase. The protease-activated kinases were examined using initiation factors (eIF) and 40-S ribosomal subunits as substrate. Protease-activated kinase I phosphorylated one subunit of eIF-3 (Mr 130000), eIF-4B and 40-S ribosomal protein S10. Protease-activated kinase II modified the beta subunit of eIF-2 (Mr 53000) and 40-S ribosomal protein S6. The substrate specificities are unique when compared with other cAMP-dependent and cAMP-independent protein kinases from reticulocytes.
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PMID:Differential activation of two protease-activated protein kinases from reticulocytes by a Ca2+-stimulated protease and identification of phosphorylated translational components. 675 25

A cardiolipin- and protease-activated protein kinase (PAK) has been isolated from cytoplasmic extracts of rat liver. The enzyme (PAK-1) phosphorylates the ribosomal protein S6-(229-239) peptide analogue and can be activated by limited proteolysis. Partial amino acid sequences of tryptic peptides derived from both the purified 116-kDa PAK-1 holoenzyme and its active catalytic fragment reveal that the catalytic domain is most related (50-58% identity) to the protein kinase C family. PAK-1 has protein and peptide substrate specificities distinct from those of known protein kinase C isoforms and is insensitive to inhibition by the protein kinase C-alpha-(19-31) pseudosubstrate peptide. Phosphatidylserine, diacylglycerol, and phorbol ester do not activate PAK-1 toward the S6 peptide substrate. However, other acidic phospholipids, the most effective being cardiolipin, activate PAK-1 to a similar extent as trypsin. The PAK-1 catalytic activities generated through activation by cardiolipin or limited proteolysis were kinetically similar, with Km values of 3.6 and 3.4 microM, respectively, for the S6-(229-239) peptide substrate. However, differences were observed in the catalytic activities with protamine sulfate and the glycogen synthase-(1-12) peptide analogue as substrates. It was concluded that PAK-1 is a phospholipid-regulated protein kinase with a primary structure, substrate specificity, and mechanism of regulation in vitro distinct from those of any known member of the protein kinase C superfamily.
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PMID:A cardiolipin-activated protein kinase from rat liver structurally distinct from the protein kinases C. 805 Oct 89


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