UNIPROT:P00750 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P00750 (PLA)
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Fibrinolytic studies in euglobulin fractions of Fletcher trait plasma (deficient in prekallikrein) revealed reduced activities as compared to normal plasma. A quantitative assay for total plasminogen activator plus proactivator in plasma showed that the amount in Fletcher trait patients is about half of normal (normal = +/- 100 blood activator units [BAU]/ml). Plasma kallikrein partially purified in a high and low molecular weight form exerted plasminogen activator activity amounting to 10-15 BAU/ml plasma. So, the absence of kallikrein in the deficient plasma cannot fully account for the reduction in activator activity. Additions of kallikrein preparations or normal plasma fractions resulted in additional activator activity in Fletcher trait plasma which was assessed at 30-40 BAU/ml. This activity was assumed to originate from a previously undescribed plasminogen proactivator whose activation is kallikrein- and factor XII-dependent. Fractionation experiments demonstrated the presence of two major activities and a minor activity caused by kallikrein in normal plasma. It is concluded that plasma kallikrein has two functions in the generation of factor XII-dependent fibrinolytic activity: one as a direct plasminogen activator and another as a factor in the activation of a major factor XII-dependent plasminogen proactivator.
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PMID:Factor XII-dependent fibrinolysis: a double function of plasma kallikrein and the occurrence of a previously undescribed factor XII- and kallikrein-dependent plasminogen proactivator. 48 48

An asymptomatic woman (Ms. Williams) was found to have a severe abnormality in the surface-activated intrinsic coagulation, fibrinolytic, and kinin-generating pathways. Assays for known coagulation factors were nromal while Fletcher factor (pre-kallikrein) was 45%, insufficient to account for the observed markedly prolonged partial thromboplastin time. Plasminogen proactivator was present at 20% of normal levels and addition of highly purified plasminogen proactivator containing 10% plasminogen activator partially corrected the coagulation and fibrinolytic abnormalities but not the kinin-generating defect. This effect was due to its plasminogen activator content. In addition, Williams trait plasma failed to convert prekallilrein to lakkilrein or release kinin upon incubation with kaolin. Kininogen antigen was undetectable. When normal plasma was fractionated to identify the factor that corrects all the abnormalities in Williams trait plasma, the Williams factor was identified as a form of kininogen by its behavior on ion exchange chromatography, gel filtration, disc gel electrophoresis, and elution from an anti-low molecular weight kininogen immunoadsorbent. High molecular weight kininogen as well as a subfraction of low molecular weight kininogen, possessed this corrective activity while the bulk of low molecular weight kininogen functioned only as a kallikrein substrate. Kininogen therefore is a critical factor required for the functioning of Hageman factor-dependent coagulation and fibrinolysis and for the activation of prekallikrein.
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PMID:Williams trait. Human kininogen deficiency with diminished levels of plasminogen proactivator and prekallikrein associated with abnormalities of the Hageman factor-dependent pathways. 120 89

The role of the bradykinin-generating system in the pathogenesis of cancer was explored by simultaneously measuring plasma prekallikrein (PK), the precursor of kallikrein, which is the major enzyme responsible for kinin generation, and plasma kininogens (KNG), which are precursors of kinin, in patients with various cancers. The mean value of plasma PK in healthy volunteers was 2.5 +/- 0.5 (mean +/- SD) units/mg plasma protein and that in cancer patients (all stage IV) was 1.7 +/- 0.7 units/mg plasma protein. The mean value of plasma KNG in healthy volunteers was 12.5 +/- 2.0 ng kinin equivalents/mg plasma protein and that in cancer patients was 10.9 +/- 2.8 ng. These data showed that plasma PK and plasma KNG values were significantly lower in cancer patients compared with healthy volunteers (P less than or equal to 0.005 for PK; 0.0005 less than P less than or equal to 0.005 for KNG; n = 28 for healthy subjects; n = 29 for cancer patients). These data appear to indicate that conversion of PK to kallikrein would probably occur with concomitant consumption of KNG by newly generated kallikrein for kinin generation in cancer patients. Early stage cancer patients showed little difference from healthy volunteers. For the in vitro study, activation of purified Hageman factor (HF) and PK was examined by using cancer cell lines and virus-transformed cells that produced plasminogen activator (PA) at a high rate. Both HF and PK were activated in the presence of plasminogen. Diploid cell lines and primary fibroblasts, which did not produce PA, activated neither HF nor PK. Taking all these data together, we conclude that kinin generation does occur in the plasma of patients with advanced cancer, and that one of the initiation mechanisms of the kinin-generating cascade appears to be mediated by plasmin and to depend on cancer cell-derived PA activity.
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PMID:Kinin-generating cascade in advanced cancer patients and in vitro study. 190 58

Low molecular weight heparin (LMW-heparin) enhanced the amidolytic activity of plasma when the chromogenic substrate, H-D-Ile-Pro-Arg-pNA (S-2288), was used. The amidolytic activity increased in a time-dependent manner as the LMW-heparin concentration increased and reached its peak at around 15 mu/ml. Factor XII-deficient plasma increased the S-2288 amidolytic activity by LMW-heparin. In order to clarify the mechanism of the heparin-induced enhancement of the amidolytic activity, a plasma factor was purified. The plasma factor was obtained from human normal plasma by ammonium sulfate fractionation, followed by successive column chromatography with heparin-Sepharose, zinc chelate-Sepharose, aprotinin-Sepharose and protein A-Sepharose. The plasma factor so purified revealed a major band (88% of total protein) at 80 kD with several minor bands on analysis by SDS-PAGE. The plasma factor exhibited an intrinsic amidolytic activity, which was enhanced by heparin. The plasma factor further enhanced the amidolytic activity of sct-PA and scu-PA, the enhancement of which was of much greater degree than that for LMW-heparin. However, when the two-chain form of t-PA or u-PA was reacted with the plasma factor and LMW-heparin, no enhancement of the amidolytic activity of these enzymes was observed. The plasma factor cleaved a peptide bond of sct-PA and scu-PA and induced a structural change from a single-chain to a two-chain form. The amidolytic activity of the plasma factor was not inhibited by anti-t-PA IgG, anti-u-PA IgG, anti-plasminogen IgG, anti-factor XII IgG or anti-plasma prekallikrein IgG. These findings suggest an important role for the plasma factor in the activation of sct-PA and scu-PA in heparin-dependent fibrinolysis.
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PMID:Purification and characterization of a plasma factor which cleaves single-chain form of t-PA and u-PA. 215 52

Components of the fibrinolytic system were studied in samples of plasma from 15 normal, young women and from 11 women taking oral contraceptives containing 30 micrograms ethinyl oestradiol and 150 micrograms levo-norgestrel. Fibrinolytic activity of euglobulins precipitated at pH 5.9 was higher than normal in the hormone group, with significant fluctuations related to the cycle. Normal women showed only minor fluctuations. The concentration of C1-inactivator was lower in euglobulins of the hormone group. However, the difference in fibrinolytic activity was retained, when C1-inactivator was inactivated with sodium flufenamate. Fluctuations of the extrinsic (tissue-type) plasminogen activator (t-PA) activity parallelled those of the euglobulin activity. The intrinsic plasminogen activator activity (dextran sulphate precipitated euglobulin) was significantly increased in the hormone group and the cyclic pattern differed from that of the normal group. The increased activity was factor XII-dependent. Plasma prekallikrein did not differ. The factor XII level was increased in the hormone group but this could not explain the increased intrinsic fibrinolytic activity, suggesting an increase in the quantity of an additional factor XII-dependent proactivator.
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PMID:Increased euglobulin fibrinolytic potential in women on oral contraceptives low in oestrogen--levels of extrinsic and intrinsic plasminogen activators, prekallikrein, factor XII, and C1-inactivator. 241 50

Blood pressure (BP), plasma prekallikrein (PK), and the extent of activation of factor XII (XII-ACT) were studied after the intravenous injection into rats of dextran (Macrodex), the ionic radiographic contrast substance iodipamide (Biligrafin), or the non-ionic contrast substance iohexol (Omnipaque). After acetone activation plasma kallikrein was assayed as plasminogen activator, BAEe esterase or S-2302 amidase, and factor XIIa was assayed as kaolin-activated prekallikrein activator. Dextran induced a strong and lasting hypotension, preceded by significant lowerings in PK and XII-ACT. Iodipamide induced a rapid and dose dependent BP fall, no change in plasma PK, but a slightly reduced XII-ACT. Iohexol induced no significant alterations, neither in BP, nor in plasma parameters. Pretreatments of the rats with iodipamide abolished the dextran-induced reductions in PK and XII-ACT, and almost blocked the fall in BP. We conclude that the ionic contrast substance iodipamide is capable of blocking dextran shock in the rat by preventing an activation of the contact activating system in plasma.
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PMID:Effects of intravenous radiographic contrast media on the blood pressure and on factors of the contact activation system in the rat. 243 54

The effect of 20 mg tenoxicam once daily for 7 days on various components of the fibrinolytic system was studied in 10 healthy volunteers. Plasma plasminogen, antithrombin 3, and prekallikrein decreased significantly while plasma plasminogen activator inhibitor increased significantly. The medication did not affect fibrin plate lysis area or the plasma level of plasminogen activator, alpha-2-antiplasmin, alpha-2-macroglobulin, C1 inactivator or Factor XII. It is suggested that these changes may be caused by interference with hepatic enzyme systems. The reduction in plasma prekallikrein may indicate that tenoxicam exerts its anti-inflammatory effect by more than one mechanism.
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PMID:The fibrinolytic system during short-term treatment with tenoxicam. 280 72

The kaolin-induced activation of factor XII (XII) to XIIa was studied in plasminogen-free human citrated plasma treated with acetone in the presence of benzamidine 7.5 mM. XIIa was assayed as prekallikrein (PK) activator. The significance of the concentrations of XII, PK and high molecular weight kininogen (HMrK) was examined using mixtures of normal plasma and plasma genetically deficient in these factors. At the high plasma dilution used (1 + 23 v/v in the kaolin incubate) a joint estimation of the factors was obtained. A reduction in amount of XII, PK or HMrK resulted in a correspondingly reduced yield of XIIa. Plasma kallikrein present was assayed as S-2302 amidase. The concentration of PK in XII-deficient plasma was normal, in HMrK-deficient plasma about 30% of normal. The activation of XII was studied in fresh plasma as well as in plasma stored for 3-6 months at -70 degrees, and the activation with acetone was carried out in the presence and in the absence of benzamidine, EDTA or purified HMrK. In previous work benzamidine was found to protect the cofactor function of purified HMrK in the assay system used, and EDTA was found to inhibit purified human plasma kallikrein assayed as plasminogen activator. The present results support the previous observations, and indicate that acetone treatment of fresh human plasma (benzamidine present) results in the activation of plasma kallikrein in a functional state that requires kinin-free, but otherwise native HMrK as a cofactor for the activation of XII.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Activation of factor XII in acetone-treated human plasma: significance of the functional state of plasma kallikrein for the extent of activation. 349 Jul 38

Fibrinolytic studies in gamma G fractions of three Fletcher factor-deficient plasmas (functionally deficient in prekallikrein) revealed weak or no factor XII-independent activator activity. Two of the three Fletcher trait patients showed no plasminogen activator activity in clot lysis, fibrin plate, and amidolytic assays. The third patient showed no activator activity as determined by clot lysis and amidolytic assays but gave 10% of the activator activity detected in normal undiluted gamma G fraction in absence of HFf when determined by fibrin plate assay. Normal plasma gamma G fractions showed detectable and significant plasminogen activator activity. These fractions did not contain kallikrein or activated factor XI activities, thus indicating that the activator activity could not be attributed to the presence in these fractions or trace of these activated factors. Furthermore, factor XI-deficient plasma gamma G fraction, which was shown to contain no activated prekallikrein, showed normal plasminogen activator activity. Finally, specific antibodies to prekallikrein were shown not to quench the activity of plasminogen activator present in normal plasma gamma fraction. A double genetic deficiency to explain the absence in Fletcher factor-deficient plasma gamma G fractions of both prekallikrein proactivator and activator activities is not likely. Thus plasma prekallikrein, besides being a known plasminogen proactivator, appears to be required for the expression of a plasminogen activator activity.
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PMID:Factor XII-induced fibrinolysis. Diminished proactivator activity and drastic reduction of activator activity in Fletcher factor-deficient plasma gamma globulin. 618 61

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

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