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)

The major (14)C-labelled peptides from creatine kinase from normal and dystrophic chicken muscle obtained by carboxymethylating the reactive thiol groups with iodo[2-(14)C]acetic acid and digestion with trypsin were purified by ion-exchange chromatography on Dowex-50 (X2) and by paper electrophoresis. The chromatographic characteristics of the (14)C-labelled peptides, their electrophoretic mobilities at pH6.5, and their amino acid compositions were identical for the two enzymes. The sequence of amino acids around the essential thiol groups of creatine kinase from normal and dystrophic chicken muscle was shown to be Ile-Leu-Thr-CmCys-Pro-Ser-Asn-Leu-Gly-Thr-Gly-Leu-Arg (CmCys, carboxymethylcysteine). This sequence is almost identical with that for the creatine kinases in human and ox muscle and bovine brain and is very similar to that of arginine kinase from lobster muscle. Antibodies to the enzymes were raised in rabbits and their reaction with the creatine kinase from normal and dystrophic muscles in interfacial, immunodiffusion and immunoelectrophoretic experiments was studied. The cross-reaction between normal muscle creatine kinase and antisera against the dystrophic muscle enzyme (or vice versa) observed by immunodiffusion and by immunoelectrophoretic experiments further suggests that the enzymes from normal and dystrophic chicken muscle are similar in structure. The results of the present study, the identical amino acid sequence of the peptides containing the reactive thiol group from both the normal and dystrophic chicken muscle enzymes and the immunological similarities of the two enzymes are in accord with the similarity of the two enzymes observed by Roy et al. (1970).
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PMID:The amino acid sequence of the peptide containing the thiol group of creatine kinase from normal and dystrophic chicken breast muscle. Comparison of some of the immunological properties of the antibodies developed in rabbits against these enzymes. 421 81

A procedure is described for the production of large numbers of Ca2+-tolerant adult canine ventricular myocytes. Gentle tissue dissociation is achieved in Spinner flasks using 320 mosM enzyme buffer containing collagenase hyaluronidase, and trypsin in the presence of millimolar levels of Ca2+. The technique allows for the complete removal of erythrocytes, the gentle removal of closely adhering nonmuscle cells (less than 3% contamination), and the selective removal of damaged from nondamaged myocytes. Total myocyte yields averaged 4-6 x 10(6)/g wet wt; 61.0 +/- 6.5% of the cells have rod-shaped morphology and are "viable" based on trypan blue exclusion. Only 3.9 +/- 1.1% of the rod-shaped cells beat spontaneously when challenged with 2 mM Ca2+. Exposure to 2 mM Ca2+ at 37 degrees C results in minimal loss of viability (2.1 +/- 1.3%/h) based on both trypan blue uptake and creatine kinase release. Simulation of cellular (i.e., membrane) injury in vitro is performed by the separate application of the perturbations of anoxia, acidosis, and low glucose to the canine myocyte suspensions; the data suggest that these myocytes are affected independently by these perturbations and are in good agreement with the results obtained by others using the isolated rat myocyte system.
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PMID:Ca2+-tolerant adult canine myocytes: preparation and response to anoxia/acidosis. 628 68

We have studied the effects of human leukocyte interferon produced in bacteria and diterpene phorbol ester tumor promoters on differentiation of normal human myoblast cultures derived from mature skeletal muscle. Interferon (100-5,000 units/ml) induced an acceleration of myotube formation and creatine kinase (CK; EC 2.7.3.2) isoenzyme transition from CK-BB to CK-MM. Heat-inactivated or trypsin-treated interferon did not affect the differentiation process. In contrast, the potent tumor promoter 12-O-tetradecanoylphorbol 13-acetate (TPA), but not its inactive structural analogues phorbol and 4 alpha-phorbol 12,13-didecanoate, caused a dose-dependent (0.01-100 ng/ml) inhibition of myotube formation and CK isoenzyme transition. Neither interferon nor TPA had a significant effect on myoblast proliferation prior to fusion, and the cloning efficiencies were similar as well. Opposing effects of interferon and TPA were also demonstrated by simultaneous application of these agents to the cultures. These studies suggest that some of the antitumor effects of interferon may relate to its capacity to modulate cellular differentiation.
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PMID:Opposing effects of interferon produced in bacteria and of tumor promoters on myogenesis in human myoblast cultures. 657 66

We have recently discovered that cells of Coon's Buffalo rat liver (BRL) line secrete a protein which is a potent inhibitor of skeletal myoblast differentiation in vitro. Using ion exchange and molecular exclusion chromatography, we have prepared this protein, which we designate "differentiation inhibitor" (DI), from the materials secreted by BRL cells maintained in serum-free medium. It is a relatively heat-stable protein which is inactivated by treatment with trypsin and mercaptoethanol and has an apparent molecular weight in the range 30,000--36,000. It exhibits no detectable mitogenic or lectin activity and differs from previously reported inhibitors of myoblast differentiation in several respects. It is active in all skeletal myoblast systems tested (Yaffe's L6 line as well as primary cultures of rat, chick, and Japanese quail myoblasts), and it blocks fusion, elevation of creatine kinase, and increased binding of alpha-bungarotoxin. Parallel fractionation of fetal bovine serum (FBS) and chick embryo extract (CEE) yields a peak of activity which similarly inhibits myoblast differentiation. We suggest that the differentiation inhibitor from BRL cells may correspond to the differentiation-inhibiting component(s) of FBS and CEE, and we call attention to the possibility that such a substance could play a role in embryonic growth of myoblasts and in satellite cell formation.
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PMID:Inhibition of myoblast differentiation in vitro by a protein isolated from liver cell medium. 704 37

The total protein synthesis (TPS), myosin synthesis (MS) and creatine kinase (CK) levels in muscle cell cultures obtained from 400 normal (strain 454) and 400 dystrophic chick embryos (strain 455) were investigated. The cultures were obtained from breast muscles of 12 day chick embryos by dissociation in 0.25% trypsin, preplating and plating of 5 x 10(5) floating cells on gelatin coated dishes in Minimal Essential Medium, 10% horse serum and 2% chick embryo extract. After 6 days, when electron-microscopic studies demonstrated good muscle differentiation, cell cultures were labeled with [3H]leucine. TPS and MS, respectively, showed 85% and 65% increases in breast muscle cell cultures from dystrophic chick embryos. The half-life times for total protein and myosin from dystrophics were 19 and 32 hr, respectively as compared with 36 and 48 hr from controls. Noncollagen protein content (NCP) showed 27% decrease in postfusion stage (12 days) of cell cultures from dystrophics. The CK level showed 30% lower values in the cells from dystrophics but 50% higher values in their culture medium. The addition of leupeptin plus pepstatin (50 microgram/ml) to these cultures resotred NCP content, total protein and myosin turnover to normal values and significantly increased TPS and MS. The addition of diphenylhydantoin (DPH) (20 microgram/ml) to cell cultures from dystrophics did not change the NCP content nor the turnover for total protein and myosin but significantly increased TPS, MS and CK while medium CK significantly decreased. The addition of leupeptin plus pepstatin or DPH to muscle cell cultures from normal chick embryos also significantly stimulated TPS and MS.
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PMID:Altered protein synthesis and creatine kinase in breast muscle cell cultures from dystrophic chick embryos. 738 11

Dystrophin-deficient female mdx mice were bred with male Tsk+/+ pa mice to examine the role played by mast cells in the pathophysiology of dystrophin deficiency. Resultant mdx/Tsk double-mutant mice were then examined functionally, biochemically, and histologically. While mdx mice remained as strong as their normal counterparts, mdx/Tsk double-mutant mice became progressively weak with age. Serum creatine kinase activity was significantly elevated in both mdx and mdx/Tsk double-mutant mice over normal controls. However, mast cell-derived plasma tryptase activity was consistently higher in the double-mutant than in mdx mice. In addition, histological examination of gastrocnemius muscle revealed that while necrosis was persistent in both strains of mdx mice from 2 to 8 weeks of age, regeneration was significantly reduced in the double-mutant mice. Of particular interest was the fact that necrosis in the mdx/Tsk double mutant exceeded mdx values at 8 weeks of age, corresponding approximately with a second peak in tryptase activity. Therefore, heightened mast cell activity appears to elicit in the dystrophin-deficient mdx mouse a myopathy not unlike the human Duchenne disease.
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PMID:Duchenne-like myopathy in double-mutant mdx mice expressing exaggerated mast cell activity. 756 39

The current problems of regulation of myocardial energy metabolism and oxidative phosphorylation in vivo are considered. With this purpose, retarded diffusion of ADP in cardiomyocytes was studied by analysis of elevated apparent Km for this substrate in regulation of respiration of saponin-skinned cardiac fibers, as compared to isolated mitochondria. Recently published data showing the importance of the outer mitochondrial membrane were compared with new experimental results on the proteolysis of skinned fibers and tissue homogenates. In both cases 10 min incubation and 0.125 mg/ml of trypsin resulted in a decrease of apparent Km for ADP from 297 +/- 35 and 228 +/- 16 to 109 +/- 2 and 36 +/- 16, respectively. Thus, the permeability of the outer mitochondrial membrane for ADP may be controlled by some unknown cytoplasmic protein(s), probably related to the cytoskeleton, which are separated from mitochondria during their isolation. The extent of expression of this protein(s) depends on the energy state and type of muscle. Activation of mitochondrial creatine kinase reaction coupled to oxidative phosphorylation overcomes the diffusion difficulties of ADP by amplifying the stimulatory effect of ADP on respiration. It is concluded that both cytoplasmic and mitochondrial creatine kinases, adenylate kinase and cytoplasmic factor controlling outer membrane permeability may participate in metabolic feedback regulation of respiration in muscle cells.
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PMID:Control of cellular respiration in vivo by mitochondrial outer membrane and by creatine kinase. A new speculative hypothesis: possible involvement of mitochondrial-cytoskeleton interactions. 776 Mar 82

The effects of exogenous ganglioside GM1 (1 microM) from bovine brain on the morphological state and biochemical parameters (creatine kinase, acetylcholinesterase and adenylate cyclase activities as well as the protein, phospholipid and ganglioside content) have been studied in primary cultures of trypsin-treated dissociated cells of chicken embryonic brain. Ganglioside GM1 accelerated the growth and differentiation of cultured cells, increased the phospho- and glycolipid content and stimulated the activity of the enzymes.
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PMID:[Modification of biochemical changes in developing cultures of chick embryo nerve tissue cultures]. 781 90

Species-specific differences in the inflammatory response, specifically with regard to mast cells, have been proposed to explain the phenotypic variation among dystrophin-deficient humans, and mdx mice (Gorospe et al., 1994). To test this hypothesis we have intramuscularly injected a mast cell secretogogue into both dystrophin-negative mdx and dystrophin-positive normal mice. Mast cell activity was determined by measuring the activity of mast cell tryptase, while creatine kinase activity was used to determine the course of muscle damage in vivo. Area of damage around the injection site was measured at autopsy, and used as an indication of relative sensitivity to the secretogogue effect of compound 48/80. Mdx mice exhibited more damage in response to intramuscular injection than normal control mice. In addition, mdx mice showed a substantial increase in plasma tryptase activity, followed by a large increase in muscle creatine kinase activity. On the other hand, dystrophin-positive normal controls injected with 48/80 liberated little CK or tryptase activity. These results are consistent with the hypothesis that species-specific differences in mast cell activity, or sensitivity to mast cell products could account for the variation in pathology seen in dystrophin-deficient animals.
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PMID:Enhanced sensitivity of mdx mice to intramuscular injection of compound 48/80. 793 7

Reactive oxygen species (ROS) have been reported to alter cardiac myofibrillar function as well as myofibrillar enzymes such as myosin ATPase and creatine kinase (CK). To understand their precise mode and site of action in myofibrils, the effects of the xanthine/xanthine oxidase (X/XO) system or of hydrogen peroxide (H2O2) have been studied in the presence and in the absence of phosphocreatine (PCr) in Triton X-100-treated cardiac fibers. We found that xanthine oxidase (XO), with or without xanthine, induced a decrease in maximal Ca(2+)-activated tension. We attributed this effect to the high contaminating proteolytic activity in commercial XO preparations, since it could be prevented a protease inhibitor, phenylmethylsulfonyl fluoride (PMSF), and it could be mimicked by trypsin. In further experiments, XO was pre-treated with 1 mmo1/L PMSF. Superoxide anion production by the X/XO system, characterized by electron paramagnetic resonance spin-trapping technique, was not altered by PMSF. A slight increase in maximal force was then observed either with X/XO (100 mumol/L per 30 mIU/mL) or H2O2. pMgATP-rigor tension relationships have been established in the presence and in the absence of PCr to separate the effects of ROS on myosin ATPase and myofibrillar-bound CK. In the absence of PCr, pMgATP50, the pMgATP necessary to induce half-maximal rigor tension, was reduced from 5.03 +/- 0.17 (n = 21) to 4.22 +/- 0.22 (n = 4) after 25 minutes of incubation in the presence one of 30 mIU/mL. XO and 100 mumol/L xanthine or to 4.04 +/- 0.1 (n = 11) after incubation in the presence of 2.5 mmol/L H2O2. The ROS effects were partially prevented or antagonized by 1 mmol/L dithiothreitol. No effect was observed on pMgATP50 when PCr was absent. pCa-tension relationships have been evaluated to assess the effects of ROS on active tension development. Incubations with H2O2 induced on increase in Ca2+ sensitivity and resting tension when MgATP was provided through myofibrillar CK (PCr and MgADP as substrates) but not when MgATP was added directly. These results suggest that myofibrillar CK was inhibited by ROS. Active stiffness and the time constant of tension changes after quick stretches applied to the fibers were dose-dependently increased by H2O2 only in the presence of PCr. In addition, myofibrillar CK but not myosin ATPase enzymatic activity was depressed after incubation with either ROS. These results suggest that ROS mainly alters CK in myofibrils, probably by the oxidation of its essential sulfhydryl groups. Such CK inactivation results in a decrease in the intramyofibrillar ATP-to-ADP ratio. The effects of ROS on cytosolic and bound CKs may take part in the overall process of myocardial stunning after cardiac ischemia and reperfusion.
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PMID:Creatine kinase is the main target of reactive oxygen species in cardiac myofibrils. 863 32


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