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)

Positively charged molecules such as protamine, leukocyte cationic protein, and the carboxyl terminus of platelet factor 4 have been shown to increase fibrin fiber thickness. Synthetic homo poly(L-amino acids) were used to explore the role of charge and molecular weight of cationic molecules on fibrin assembly. The effects of poly(L-lysine) (PLL), poly(L-glutamic acid) (PLG), poly(L-aspartic acid) (PLA), poly(L-histidine) (PLH), and poly(L-arginine) (PLArg) on the assembly and structure of fibrin gels were studied by using light-scattering techniques. At a PLG (Mr 60,000) concentration of 80 micrograms/mL and a PLA (Mr 20,000) concentration of 64 microgram/mL, neither of these negatively charged polymers produced a detectable change in either fibrin assembly kinetics or final structure. Positively charged PLArg (16 micrograms/mL) caused a 30% increase in fibrin fiber mass/length ratio without calcium. In contrast, PLH (16 micrograms/mL), also positively charged, had no effect in the absence of CaCl2 but produced a 40% increase in fiber mass/length ratio with 5 mM CaCl2. At concentrations as low as 1 microgram/mL, positively charged PLL increased the initial fibrin assembly kinetics and led to larger fiber mass/length ratio. The impact on fibrin mass/length ratio was equivalent for three different molecular weight preparations of PLL (Mr 25,000, 90,000, and 240,000). The lack of a molecular weight effect on fiber thickness and the low polymer concentrations required to produce the perturbation argue against an excluded volume effect as the mechanism by which lateral fiber growth is augmented. Mechanisms by which poly(L-amino acids) may perturb fibrin assembly are discussed.
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PMID:Effect of homo poly(L-amino acids) on fibrin assembly: role of charge and molecular weight. 271 71

The heavy chain of tissue plasminogen activator (t-PA) consists of four domains [finger, epidermal-growth-factor (EGF)-like, kringle 1 and kringle 2] that are homologous to similar domains present in other proteins. To assess the contribution of each of the domains to the biological properties of the enzyme, site-directed mutagenesis was used to generate a set of mutants lacking sequences corresponding to the axons encoding the individual structural domains. The mutant proteins were assayed for their ability to hydrolyze artificial and natural substrates in the presence and absence of fibrin, to bind to lysine-Sepharose and to be inhibited by plasminogen activator inhibitor-1. All the deletion mutants exhibit levels of basal enzymatic activity very similar to that of wild-type t-PA assayed in the absence of fibrin. A mutant protein lacking the finger domain has a 2-fold higher affinity for plasminogen than wild-type t-PA, while the mutant that lacks both finger and EGF-like domains is less active at low concentrations of plasminogen. Mutants lacking both kringles neither bind to lysine-Sepharose nor are stimulated by fibrin. However, mutants containing only one kringle (either kringle 1 or kringle 2) behave indistinguishably from one another and from the wild-type protein. We conclude that kringle 1 and kringle 2 are equivalent in their ability to mediate stimulation of catalytic activity by fibrin.
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PMID:Variants of human tissue-type plasminogen activator that lack specific structural domains of the heavy chain. 284 82

The localization and time-related production of plasminogen activator (PA) by ovarian granulosa cells was studied by measuring the plasmin-mediated lysis of the chromogenic substrate H-D-norleucyl-hexahydrotyrosyl-lysine-p-nitroanilide diacetate. Granulosa cells from diethylstilbestrol-implanted immature rats produced both a cell-associated and a secreted PA, as indicated by increased hydrolysis of the substrate by the cells or extracellular medium. The formation of cellular PA was induced by FSH and was detectable as early as 2 h during a 72-h culture, with 80% of the maximal activity present by 6 h. In contrast, negligible PA activity was detected in the extracellular medium until 6-20 h of culture, after which time the secreted PA activity continued to rise throughout the 72-h culture period. Control cells also produced both cellular and secreted PA, but in lower amounts than cells stimulated by FSH. The presence of cellular PA was further indicated by a 2-fold rise in PA activity after solubilization of granulosa cells with increasing concentrations of the detergent Triton X-100. However, freshly prepared granulosa cells had no detectable PA activity in the absence or presence of detergent, suggesting that the PA was synthesized during culture. Actinomycin D and cycloheximide suppressed cellular PA production when added during the first hours of granulosa cell culture, but had little effect when added from 44-48 h of culture. In contrast, both actinomycin D and cycloheximide reduced secreted PA activity from 44-48 h. The expression of cellular PA activity was only partially dependent on the presence of fibrin, while the secreted PA fully required fibrin. These results demonstrate gonadotropin-regulated production of both cellular and secreted types of PA by granulosa cells. The cellular form is produced in the first hours of culture when it is sensitive to macromolecule synthesis inhibitors and is partially dependent on fibrin. The extracellular PA is predominantly secreted after the first 24 h of culture and requires fibrin for its activity. The differential activities of the two types of PA may be involved in the control of hormone-induced processes during granulosa cell differentiation.
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PMID:Production of a cell-associated and secreted plasminogen activator by cultured rat granulosa cells. 293 43

One of thirty murine monoclonal antibodies, raised by immunization with human plasmin-alpha 2-antiplasmin complex, was found to be directed against the high-affinity lysine-binding site in plasminogen. Indeed, this antibody (MA-HAL) reacted with plasminogen and with a fragment of plasminogen composed of the first three triple-loop structures (LBS I) and was displaced by 6-aminohexanoic acid (50% displacement at 25 microM). In competitive radioimmunoassays the binding of radiolabeled plasminogen to MA-HAL was reduced to 50% with 2.3 microM alpha 2-antiplasmin or 1.3 microM histidine-rich glycoprotein, which corresponds to the known dissociation constants between these ligands and the high-affinity lysine-binding site of plasminogen. MA-HAL did not influence the activation of plasminogen by tissue-type plasminogen activator in the absence of CNBr-digested fibrinogen, but abolished the effect of CNBr-digested fibrinogen on the Michaelis constant of the reaction. MA-HAL reduced the reaction rate between plasmin and alpha 2-antiplasmin by a factor 20 and abolished the binding of plasminogen to fibrin. These results indicate that MA-HAL specifically binds to and masks the high-affinity lysine-binding site of plasminogen. It therefore is a useful tool for the investigation of the role of this structure in the regulation of fibrinolysis, both at the level of fibrin-stimulated activation of plasminogen and of the inhibition of generated plasmin.
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PMID:A monoclonal antibody directed against the high-affinity lysine-binding site (LBS) of human plasminogen. Role of LBS in the regulation of fibrinolysis. 294 88

The preparation of a new class of covalent hybrid plasminogen activators containing the fibrin-binding domains of human plasmin(ogen) and the catalytic active center of human urokinase will be described. Hybridization of the sulfhydryl form of the NH2-terminal plasmin-derived heavy (A) chain (PlnA) with the sulfhydryl form of the COOH-terminal urokinase-derived active heavy (B) chain (u-PAB) was carried out; a covalent PlnA-u-PAB hybrid plasminogen activator was prepared. The sulfhydryl form of PlnA (PlnA(SH)2) was isolated from reduced Lys-2-plasmin by L-lysine-substituted Sepharose column chromatography. For the isolation of the sulfhydryl form of u-PAB (u-PAB(SH], high molecular weight urokinase was adsorbed onto a benzamidine-Sepharose column and reduced with 100 mM 2-mercaptoethanol on the column. The urokinase NH2-terminal light (A) chain was washed off the column, and the u-PAB(SH) chain was eluted from the column. The specific activity of the isolated u-PAB(SH) chain was determined to be 242 000 IU/mg of protein. The PlnA(SH)2 and u-PAB(SH) chains were mixed at a molar ratio of PlnA(SH)2 to u-PAB(SH) of 3:2; the reducing agents were then removed by gel filtration. The hybridization (reoxidation) reaction was allowed to proceed for 48 h at 4 degrees C. The covalent hybrid activator, in 40% yield, was purified from the reaction mixture to homogeneity, by a sequential affinity chromatography method with L-lysine-substituted Sepharose followed by anti-low molecular weight urokinase IgG-Sepharose, and then gel filtration through Sephadex G-150.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Covalent molecular weight approximately 92 000 hybrid plasminogen activator derived from human plasmin amino-terminal and urokinase carboxyl-terminal domains. 294 Oct 75

Trinitrobenzyl alkylation of poly(D-lysine) provides a novel powerful stimulator of tissue-type plasminogen activator. Its stimulatory effect on plasminogen activation is far greater than that of the original poly(D-lysine), and even surpasses that of fibrin. Its effect on plasmin-catalysed modification of both tissue-type plasminogen activator (t-PA) and native (Glu-1-) plasminogen are also investigated. Cleavage of one-chain t-PA to its two-chain form is monitored by measuring the increase in amidolytic activity which accompanies this transformation. Presupposing apparent first-order reaction kinetics, a theory is developed by which the rate constant, kcat/Km = 1.0 X 10(6) M-1 X s-1 of plasmin cleavage of one-chain t-PA can be calculated. Plasmin-catalysed transformation of 125I-labelled Glu-1- to Lys-77-plasminogen is quantified following separation by polyacrylamide gel electrophoresis at pH 3.2. A rate constant, kcat/Km = 4.4 X 10(3) M-1 X s-1 is obtained for the reaction between plasmin and Glu-1-plasminogen in the presence of 1 mM trans-4-(aminomethyl)cyclohexane-1-carboxylic acid. Both of the above plasmin-catalysed reactions are strongly enhanced by trinitrobenzoylated poly(D-lysine). The mechanism of action of this stimulator is elucidated by studying its binding to both activator and plasmin(ogen), and by direct comparison of the results with measurements of plasminogen activation kinetics in the presence of the stimulator. Binding studies are performed exploiting the observation that an insoluble yellow complex is formed between plasminogen and modified poly(D-lysine). Protein-polymer interactions are also studied with solubilised components in an aqueous two-phase partition system containing dextran and poly(ethylene glycol). The rate enhancement of plasminogen activation is found to be closely correlated to the association of plasminogen to the stimulator. It is proposed that the stimulator effects of this simple polymer on the enzymatic activities of both plasminogen activator and plasmin are brought about by association of the proteinase and its substrate to a common matrix. Similarities between the action of the artificial and the natural stimulator (fibrin) are stressed. These properties of trinitrobenzoylated poly(D-lysine) makes it useful as a model for the study of the regulatory mechanism of the fibrinolytic process at the molecular level.
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PMID:Trinitrobenzoylated poly(D-lysine) as a stimulator of interactions between plasminogen, plasmin, and tissue-type plasminogen activator. 294 20

Solid phase fibrin was an efficient stimulator of the tissue-type plasminogen activator (t-PA), and the plasmin produced could be detected by colorimetric assay of the soluble phase above the fibrin. However the fibrin-stimulated activity of t-PA was not inhibited by minactivin. This result was in contrast to that obtained with poly-D-lysine (PL) stimulated t-PA, where minactivin was a potent inhibitor. However, if PL was added to fibrin-bound t-PA, the enzyme once again became susceptible to minactivin inhibition. This occurred without release of t-PA from the fibrin matrix. Minactivin alone did not bind to fibrin or to the t-PA fibrin complex. It was therefore concluded that minactivin normally has no significant role in the regulation of t-PA mediated fibrinolysis, but this effect can be induced by PL.
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PMID:The resistance of fibrin-stimulated tissue plasminogen activator to inactivation by a class PAI-2 inhibitor (minactivin). 295 18

Single chain urokinase (SC-UK) is a precursor of 55 kd two-chain UK (TC-UK). Treatment with catalytic proportions of plasmin or kallikrein converts SC-UK to TC-UK as a consequence of cleavage of its Lys158-Ile159 peptide bond. This plasmin-mediated activation of SC-UK induces a positive feedback secondary reaction and complicates measurement of its activity against its natural substrate, Glu-plasminogen. The fibrin-selective effect of pro-UK-induced clot lysis is not related to fibrin binding. Rather, a conformational change in Glu-plasminogen, conferred when it binds to certain carboxy-terminal lysine residues on fibrin, has been implicated in this mechanism. This is complementary to t-PA. Fibrin-bound t-PA was found to exclusively activate plasminogen bound to certain internal lysine residues. Their complementariness is believed to explain their synergism in fibrinolysis.
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PMID:Activation of fibrin-bound plasminogen by pro-urokinase and its complementariness with that by tissue plasminogen activator. 297 33

A new procedure for the purification of plasminogen activator secreted by cultured Rous sarcoma virus-infected chick embryo fibroblasts was described. The enzyme was isolated from culture medium containing 0.75% calf serum depleted of plasminogen by lysine-agarose affinity column chromatography and of high-molecular-weight protease inhibitors by ultracentrifugation. The culture conditions allowed convenient preparation of large amounts of culture fluid with relatively high concentrations of plasminogen activator. The purification of the enzyme was accomplished by affinity chromatography on fibrin-celite and p-aminobenzamidine-agarose columns, and by gel-filtration chromatography in the presence of urea. The activity was recovered in greater than 90% yield, and the enzyme was essentially homogeneous when analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Yields from 500 ml culture fluid exceeded 500 micrograms.
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PMID:Purification of plasminogen activator from Rous sarcoma virus-infected chick embryo fibroblast culture medium. 298 8

The tissue-destructive proteinases of B16-BL6 melanoma cells from C57BL/6 mice and subcellular fractions were examined. Cancer cell organelles were isolated following nitrogen cavitation with the use of sucrose density gradient centrifugation. Serine, cysteine, and metalloproteinases were assayed with the use of radiolabeled proteins and synthetic substrates. Tumor-induced red blood cell lysis was quantitated by measurement of the release of isotope from 59Fe-labeled red blood cells (RBC) cocultivated with melanoma cells; the RBC were from Wistar rats. Enzyme inhibitors with specificity toward different classes of proteinases were used in the above assays to categorize the enzymes responsible for substrate degradation. Results indicated that intact melanoma cells, cell organelles, and cytosol contain proteinases that can degrade collagen and gelatin and lyse normal RBC. Melanoma plasma membranes are highly enriched in collagenase, gelatinase, cysteine proteinase, plasminogen activator, and cytolytic activity. The inhibition of tumor collagenolytic, gelatinolytic, and cytolytic activities by EDTA and 1,10-phenanthroline but not by diisopropyl fluorophosphate and N alpha-p-tosyl-L-lysine chloromethyl ketone indicates that metalloproteinases are the active enzymes in these assays. Minocycline, a synthetic tetracycline with demonstrable inhibitory activity with other mammalian collagenases, also inhibited melanoma collagenolytic and cytolytic activities.
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PMID:Diversity of melanoma plasma membrane proteinases: inhibition of collagenolytic and cytolytic activities by minocycline. 299 28


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