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: UNIPROT:P00750 (PLA)
16,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effect of human activated protein C (APC) on fibrinolysis was studied in a cell-free system by continuously monitoring the thrombin-induced formation and subsequent tissue-type plasminogen activator-induced degradation of fibrin. In systems comprising dialyzed human plasma, APC shortens the time for lysis to occur in a concentration-dependent, saturable manner. Half-maximal activity occurs at an APC concentration of 10 nM. The effect is mediated by enhanced plasminogen activation and is dependent upon ionized calcium. The effect is lost when plasma adsorbed with barium citrate is utilized in place of unadsorbed plasma. The effect can be reconstituted, however, from components recovered from the barium citrate precipitate. Fractionation of the barium citrate adsorbable proteins with polyethylene glycol (PEG) provides two fractions, one of which is obtained by precipitation at 5% PEG, and the other of which is obtained from the 5% PEG supernatant by further precipitation at 40% PEG. The latter fraction contains Factor X and presumably the other vitamin K-dependent clotting factors. Both of these fractions together, but neither of them alone, fully reconstitute barium-adsorbed plasma, such that APC-enhanced fibrinolysis occurs as in non-adsorbed plasma. These fractions also are sufficient to provide for an APC effect in a system in which purified plasminogen and fibrinogen are used in place of barium citrate-adsorbed plasma. Thus, an effect of APC on tissue-type plasminogen activator-induced fibrinolysis exists which is Ca2(+)-dependent and requires two or more, as yet unidentified, components that can be precipitated from human plasma by barium citrate.
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PMID:The activated protein C-mediated enhancement of tissue-type plasminogen activator-induced fibrinolysis in a cell-free system. 212 Feb 9

We have previously reported paradoxical prothrombotic effects manifest by elevations of fibrinopeptide A (FPA) after administration of streptokinase to patients with acute myocardial infarction. To characterize mechanisms responsible and their dependence on streptokinase (SK) as opposed to other activators of the fibrinolytic system, the present study was performed to compare effects of streptokinase, tissue-type plasminogen activator (t-PA), and urokinase on plasma and on purified prothrombin in concentrations similar to those achieved pharmacologically. The effects of plasmin were assessed to determine the extent to which the elevations of FPA seen could be attributed to activation of plasminogen. Elevations of FPA were observed after incubation of each of the activators with citrated plasma at 37 degrees C for 60 minutes. However, they were most marked with streptokinase (64.5 +/- 4.6 pmol FPA/ml (mean +/- SE) with 100 IU SK/ml, and 77.6 +/- 5.0 pmol/ml with 500 IU SK/ml). Elevations of FPA induced by streptokinase were attenuated by 100 IU/ml heparin [15.2 +/- 1.9 pmol/ml after 100 IU of SK (p less than 0.001 compared with results with streptokinase without heparin)]. Human plasmin, 2.5 CTA/ml, caused changes similar to those induced by streptokinase. The minimal elevations of FPA induced by t-PA or urokinase (less than 10 pmol/ml without heparin) were not significantly attenuated by heparin. Incubation of barium citrate adsorbed plasma (vitamin K factor depleted) with streptokinase markedly attenuated elevation of FPA. Addition of prothrombin (1.5 microM) and streptokinase (100 IU/ml) to the barium citrate adsorbed plasma elicited elevations of FPA similar to those induced by streptokinase in citrated plasma. Amidolytic activity with the "thrombin" substrate H-D-phenylalanyl-L-pipecolyl-L-arginine-p-nitroanilide dihydrochloride (S-2238) was evident when streptokinase, plasminogen (0.24 microM), and prothrombin (1.5 microM) were incubated in buffer. Thus, concentrations of streptokinase that are low in terms of therapeutic blood levels activate prothrombin in plasma, likely due to activation of plasminogen. Neither tissue-type plasminogen activator nor urokinase in pharmacologically comparable concentrations increase thrombin activity appreciably perhaps because of less intense activation of plasminogen. Consideration of the prothrombotic effects observed may be relevant to selection of specific agents for therapeutic thrombolysis, to appropriate titration of dose, and to the need for the use of heparin conjointly with particular activators of the fibrinolytic system such as streptokinase.
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PMID:Differential effects of activation of prothrombin by streptokinase compared with urokinase and tissue-type plasminogen activator (t-PA). 313 87

An endothelial cell-associated cofactor that greatly enhances the rate of protein C activation by thrombin has recently been described. The observation that the cofactor binds thrombin with unusually high affinity (K(d) = 0.5 nM) suggested that low level thrombin infusion into dogs might lead to the selective activation of protein C. Infusion of thrombin (1 U/min per kg body wt) into the jugular vein of dogs leads to the formation of a systemic anticoagulant activity within 5 min of starting the infusion. The plasma has a prolonged partial thromboplastin time and Factor X(a) clotting time, but there is no change in the thrombin clotting time. The systemic anticoagulant activity is identified as activated protein C for the following reasons: (a) anti-canine activated protein C IgG antibodies inhibit the anticoagulant activity; (b) the anticoagulant activity can be partially purified from the plasma of dogs infused with thrombin by barium citrate adsorption; (c) the anticoagulant has chromatographic properties on QAE Sephadex indistinguishable from those of activated protein C, and (d) the rate at which this anticoagulant is inhibited in citrated canine plasma is identical to that of canine activated protein C. The in vivo activation of protein C appears to be receptor mediated since it occurs at low thrombin concentration and since it can be progressively inhibited by simultaneous infusion of diisopropylphospho-thrombin with thrombin. The activation of protein C at low levels of thrombin is selective, since neither the platelet count nor the Factor V levels are altered. Thrombin infusion leads to an elevation in circulating plasminogen activator levels. This appears to be mediated through the activation of protein C since coinfusion of diisopropylphospho-thrombin with thrombin inhibits the increase in plasminogen activator levels. Pretreatment of dogs with dicumarol blocks both the formation of anticoagulant activity and the rise in plasminogen activator. When the dicumarol-treated dogs are supplemented with isolated protein C and thrombin is infused, the anticoagulant activity again appears and the circulating levels of plasminogen activator are again elevated. These studies illustrate that low levels of thrombin in vivo can activate protein C, which in turn can inhibit blood coagulation and initiate fibrinolysis by elevating circulating plasminogen activator levels.
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PMID:Activation of protein C in vivo. 617 16

We report the isolation of a specific protease zymogen from chicken plasma. The purification procedure involves barium citrate precipitation, ammonium sulfate fractionation, removal of plasminogen and plasmin on lysine-Sepharose, followed by anion and cation exchange, and gel permeation chromatography. Based on quantitative radioimmunoassay the zymogen is present in plasma at a concentration of 160 mg/liter, and it is obtained by our procedure in highly purified form with a yield of 1.4%. The single polypeptide chain contains an NH2-terminal alanine residue. The native molecule migrates in sodium dodecyl sulfate-polyacrylamide gel electrophoresis with an apparent molecular weight of 84,000 under reducing conditions. It can be identified as an inactive proenzyme because it has very low amidolytic activity, does not react with the fluorescent active site titrant 4-methyl-lumbelliferyl p-guanidinobenzoate, and does not incorporate radioactive [3H]diisopropylfluorophosphate. It is very susceptible to limited proteolysis which converts it to an active enzyme with trypsin-like specificity. The active enzyme, likewise a single polypeptide chain, migrates as a doublet with apparent molecular weights of 39,000 and 40,000. Its amidolytic activity with synthetic peptide substrates is at least 40-fold higher than that of the proenzyme, it reacts efficiently with 4-methylumbelliferyl p-guanidinobenzoate, and incorporates [3H]diisopropylfluorophosphate while undergoing irreversible inactivation. The enzyme appears to be a reasonably efficient plasminogen activator in zymographic gels, but not in solution. With human high molecular weight kininogen as substrate the enzyme was about 25% as efficient as human plasma kallikrein. It lacks any plasminogen-independent proteolytic activity with other protein substrates, and it hydrolyzes small peptide substrates designed for both human kallikrein and urinary urokinase, respectively. Inhibition studies with peptide chloromethyl ketones indicate enzymatic properties closer to human plasma kallikrein than to the human plasminogen activator urokinase (EC 3.4.21.31). The chicken plasma enzyme and the plasminogen activator from the conditioned media of Rous sarcoma virus-transformed chick embryo fibroblasts treated with tumor promoter are different by criteria of tryptic peptide maps, and amino acid composition and enzymatic specificity. The designations chicken plasma prekallikrein plasminogen proactivator and chicken plasma kallikrein plasminogen activator are proposed for the zymogen and enzyme forms, respectively. Using rabbit antibodies against the proenzyme we developed a solid phase immunoadsorption procedure that allowed us to isolate the protein with an overall yield of 11.4%.
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PMID:A proenzyme from chicken plasma similar to human plasma prekallikrein. 655 13

The aim of this study was to evaluate the effect of the radiopaque filler, barium sulfate (BaSO4), on the mechanical properties of self-reinforced bioresorbable fibres. The bioresorbable polymer was a copolymer of L- and D-lactide with an L/D monomer ratio of 96:4 (96L/4D PLA). The fibres were manufactured using an extrusion and a drawing process. Three different methods of processing the composites were studied. The materials were blended prior to extrusion. In the first method, the BaSO4 powder was mixed with the polymer granulates by hand (manual blending). The blend was then processed using a twin-screw extruder. The second and third methods utilized a single-screw extruder. In the second method, the BaSO4 powder was manually mixed with the polymer prior to extrusion. In the third method, the BaSO4 powder was mechanically attached on the polymer granulates (mechanical blending) prior to extrusion. The mechanical and chemical properties of the radiopaque bioresorbable fibres were measured after processing and during in vitro degradation. The fibres were gamma, plasma or EtO sterilized. There was no statistical difference in the mechanical properties of the fibres when manufactured using the twin-screw extrusion with manual blending or the single-screw extrusion with mechanical blending. The gamma sterilization markedly decreased the initial intrinsic viscosity of all fibres, whereas the plasma and EtO sterilization methods had no effect on the initial intrinsic viscosity. During in vitro testing, the loss in the intrinsic viscosity occurred at the same rate whether the fibres were loaded with the barium sulfate or not.
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PMID:Mechanical properties and in vitro degradation of self-reinforced radiopaque bioresorbable polylactide fibres. 1290 35

The present study demonstrates the epigenetic mechanisms underlying the effect of Bacoside rich extract of Bacopa monniera-a nootropic herb, on scopolamine treated amnesic mice conferred via chromatin modifying enzymes. The focus of the work was to elucidate the modulation of the chromatin modifying enzymes: DNMT1, DNMT3a, DNMT3b, HDAC2, HDAC5 and CPB in scopolamine induced amnesic mice after treatment with bacoside rich extract of Bacopa monniera (BA) and BA encapsulated in lactoferrin conjugated PEG-PLA-PCL-OH based polymersomes (BAN). We observed remarkable difference between the results obtained after the treatment with BA and BAN. Interestingly BAN was found to be more efficient in downregulating DNA methylation and histone chain deacetylation. Scopolamine treatment showed up-regulation of DNMT1 expression in qRT-PCR by 3.14-fold as compared to the control, which was considerably decreased by 1.5-fold after treatment with BA and remarkably decreased 0.11-fold by BAN treatment. Scopolamine treatment up-regulated the expression of DNMT3a by 1.6-fold while for DNMT3b by 3.13-fold. In DNMT3a and DNMT3b the fold change decreased to 0.64 and 0.76 after BA treatment, whereas the BAN treatment further down-regulated to 0.32- and 0.63-fold, respectively. Similarly scopolamine up-regulated HDAC2 and HDAC5 by 3.12 fold and 3.64-fold, respectively. BA treatment reversed the changes by reducing HDAC2 mRNA to 0.89-fold and HDAC5 mRNA 0.83-fold. BAN further reduced expression of HDAC2 further to 0.39-fold and HDAC5 to 0.31-fold. On the other hand scopolamine down-regulated CBP mRNA expression by 0.28-fold and increased by 1.09 after BA treatment. BAN significantly increased the CPB expression by 1.65-fold as compared to BA treatment. These findings were consolidated by DNMT and HDAC enzyme activity assay, methylation in the promoter region of the memory related genes: ARC and BDNF and Dot blot assay for DNA methylation. The percent activity increase of DNMT and HDAC after scopolamine administration was 375.74 and 240.90 respectively. After treatment with BA the downfall in percent activity was observed as 167.99 in DMNT and 130.57 in HDAC. BAN treatment further decreased the percent enzyme activity of DNMT and HDAC significantly by 30.0 and 61.81 respectively. The potency of BAN in reversing the epigenetic changes of scopolamine induced amnesic mouse brain, can be attributed to the brain specific delivery of BA through polymersomes which are able to cross the blood brain barrier (BBB) via receptor mediated endocytosis.
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PMID:Bacosides Encapsulated in Lactoferrin Conjugated PEG-PLA-PCL-OH Based Polymersomes Act as Epigenetic Modulator in Chemically Induced Amnesia. 3196 Feb 26

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