EC:3.4.21.4 - FACTA Search

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)

A protein inhibitor (CMTI-V; Mr 7106) of trypsin and activated Hageman factor (Factor XIIa), a serine protease involved in blood coagulation, has been isolated for the first time from pumpkin (Cucurbita maxima) seeds by means of trypsin-affinity chromatography and reverse phase high performance liquid chromatography (HPLC). The dissociation constants of the inhibitor complexes with trypsin and Factor XIIa have been determined to be 1.6 x 10(-8) and 4.1 x 10(-8) M, respectively. The primary structure of CMTI-V is reported. The protein has 68 amino acid residues and one disulfide bridge and shows a high level of sequence homology to the Potato I inhibitor family. Furthermore, its amino terminus consists of an N-acetylates Ser. The reactive site has been established to be the peptide bond between Lys44-Asp45. The modified inhibitor which has the reactive site peptide bond hydrolyzed inhibits trypsin but not the Hageman factor.
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PMID:A new protein inhibitor of trypsin and activated Hageman factor from pumpkin (Cucurbita maxima) seeds. 222 48

Burn injury and intradermal injection of bradykinin or histamine cause permeability changes visualized as dye-release lesions in the skin of guinea pigs injected intravenously with Evans blue dye. Antihistamine pretreatment ablates the histamine but not the effect of thermal injury or bradykinin. Bradykinin is generated via activation of Hageman factor in a two-step reaction. Steps 1 and 2 can be inhibited by corn trypsin inhibitor and soy bean trypsin inhibitors, respectively. Dye-release lesions were reduced from thermal injury and bradykinin injections when these substances were injected into the skin first. Angiotensin-converting enzyme deactivates bradykinin by degrading it. Angiotensin-converting enzyme inhibitor neutralizes angiotensin-converting enzyme. Dye-release lesions from both thermal injury and bradykinin injection were enhanced because of continued bradykinin build-up when these treatments were preceded by subcutaneous injections of angiotensin-converting enzyme inhibitor. Thus bradykinin is generated in thermal injury via the Hageman factor-dependent pathway. Hageman factor sits at the apex of a series of interrelated cascade systems, all of which impinge on the animal's immune status. Uncontrolled Hagemen factor activation in thermal injury may be the link among all the events collectively known as the "post thermal injury immunosuppression syndrome."
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PMID:Hageman factor-dependent kinin activation in burns and its theoretical relationship to postburn immunosuppression syndrome and infection. 228 2

We measured the levels of alpha 2-macroglobulin (alpha 2M)-proteinase complexes in the plasma of 18 patients with classic rheumatoid arthritis, 11 age-matched patients with noninflammatory back pain and osteoarthritis, and 8 healthy volunteers. In contrast with previous reports, we found no evidence of alpha 2 M-proteinase complexes in the plasma samples from individuals in any of the groups. In our assays, all activity that might have been the result of the presence of such complexes in the plasma samples proved instead to be an artifact attributable to contamination of the anti-alpha 2M antibody immobilized on the AffiGel solid phase with a trypsin-like proteinase. When the contaminating activity was eliminated by pretreatment of the antibody with 1 mM diisopropyl fluorophosphate, no degradation of substrate was detected with any of the plasma samples. However, the ability of the solid-phase assay to detect and quantitate alpha 2M-proteinase complexes when they are present was confirmed in control experiments with plasma samples to which performed alpha 2M-trypsin complexes had been added, or in which alpha 2M-kallikrein complexes had been generated by activation of Hageman factor (coagulation factor XII). We therefore conclude that neither normal plasma nor that from rheumatoid arthritis patients contains measurable amounts of alpha 2M-proteinase complexes.
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PMID:Plasma from rheumatoid arthritis patients does not contain abnormally high levels of alpha 2-macroglobulin-proteinase complexes. 244 46

The nature of vascular permeability factor (VPF) activity derived from serum-free conditioned medium containing cultured human malignant glial tumors has been further investigated. A 1000-fold purification was accomplished by sequential heparin-Sepharose affinity chromatography and high-performance liquid chromatography gel filtration chromatography steps. Vascular permeability factor activity falls into a molecular weight range of 41,000 to 56,000 D. Activity is bound to hydroxylapatite, carboxymethyl-Sepharose, phenyl-Sepharose, and heparin-Sepharose, whereas little or no activity was bound to diethylaminoethyl-Sephacel. Vascular permeability factor activity is trypsin- and pepsin-sensitive but is unaffected by treatment with ribonuclease A. This suggests that VPF is a hydrophobic, positively charged (cationic) polypeptide with a potentially biologically significant affinity for heparin. As most proteins are negatively charged (anionic) and have no affinity for heparin, a significant advantage was gained by performing these purification steps. The activity of VPF is not inhibited by coinjection of conditioned medium with soybean trypsin inhibitor; or hexadimethrine (both known antagonists of tissue plasminogen activator, Hageman factor, and serum kallikrein); or aprotinin (an antagonist of both plasmin and tissue kallikrein); or phenylmethanesulfonyl fluoride (a serine esterase (elastase) inhibitor); or pepstatin-A (an acid protease inhibitor which inactivates vascular permeability-inducing leukokinins). These data, together with the fact that VPF is produced and released into serum-free media, provides substantial evidence against it being one of the more commonly known serum-derived permeability mediators. Treatment with dithiothreitol inhibited VPF activity, indicating the presence of at least one essential disulfide bond in this molecule. Inhibition by dexamethasone of VPF expression in cultured malignant glial cells appears to be selective. Dexamethasone-induced inhibition of VPF was dose-responsive and was not associated with a parallel inhibition of cellular protein synthesis as determined by tritiated leucine incorporation into trichloroacetic acid-precipitable material. Inclusion of dexamethasone in the culture medium was not associated with altered cell viability or cell number. A series of in vivo studies confirmed the inhibition of VPF activity in test animals pretreated with dexamethasone. This steroid-induced inhibition was partially reversed by treatment of test animals with actinomycin D prior to exposure to dexamethasone.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Further characterization of malignant glioma-derived vascular permeability factor. 313 21

We have developed a large-scale method for recovering the corn inhibitor of trypsin and activated Hageman factor from a trypsin-agarose column predominantly in the single-chain form. To do so, inhibitor retained by the column was eluted with 1.0 M glycine buffer, pH 2.1. We have used reversed-phase high-performance liquid chromatography to further purify the inhibitor eluted from the trypsin-agarose column by separating the single-chain inhibitor from two-chain inhibitor (a small amount of which is present in the preparation after trypsin-agarose chromatography) and from still smaller amounts of another protein (apparently trypsin) that appears as a contaminant during trypsin-agarose chromatography.
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PMID:Combined use of trypsin-agarose affinity chromatography and reversed-phase high-performance liquid chromatography for the purification of single-chain protease inhibitor from corn seeds. 377 90

A monoclonal antibody to human Hageman factor (HF, factor XII) was derived from BALB/c mouse spleen cells fused with NS-1 mouse myeloma cells. This antibody, purified from ascites fluid, reacted with HF to inhibit the activation of HF, purified or in normal pooled plasma, as measured by a coagulation assay. The antibody did not inhibit the coagulant activity of activated HF. The antibody also inhibited the generation of amidolytic activity in HF-ellagic acid mixtures, but failed to inhibit the amidolytic properties of the carboxy-terminal fragment of HF (HFf). Amidolytic activity, absent in an HF-monoclonal antibody mixture, was generated upon treatment with insoluble trypsin. Monoclonal antibody, bound to CNBr Sepharose 4B gel (Pharmacia Fine Chemicals, Piscataway, NJ), reversibly bound HF in plasma or in buffer, without activating it. HF was then eluted with 4 mol/L guanidine HCI. The passage of 125I-labeled HF enzymatically cleaved by trypsin through a column of monoclonal antibody-CNBr Sepharose 4B gel resulted in flow-through of HFf with a molecular weight (mol wt) of 30,000 and HF fragments of mol wt 12,000. Elution with 4 mol/L guanidine HCI yielded several HF fragments (mol wt 80,000, 52,000, and 40,000) but not HFf. These data suggest that the single determinant recognized by the murine monoclonal antibody is not on HFf, but rather on the amino-terminal fragment thought to be involved in the binding activity of HF. The monoclonal anti-HF bound to CNBr-activated Sepharose 4B gel could be used to artificially deplete plasma samples of HF.
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PMID:A monoclonal antibody that inhibits activation of human Hageman factor (factor XII). 396 48

The isolation and characterization of the first component of the kinin-forming system in human and rabbit plasma are presented. Functionally, the molecule is the precursor of the activator of prekallikrein (Pre-PKA) and evidence is presented that it is identical with Hageman factor (clotting factor XII). The component from each plasma possessed similar characteristics. This molecule was found to have a mol wt of 110,000 and sedimentation rate of 4.6S. It migrated in electrophoresis as a beta-globulin, having an isoelectric point of 6.1. Upon activation with glass, kaolin, diatomaceous earth, ellagic acid, or trypsin, the activated molecule converted purified prekallikrein (prokininogenase) to the active enzyme. Clot-promoting activity was associated with the capacity to activate prekallikrein through each procedure of isolation. The clot-promoting factor was in precursor form, requiring treatment with kaolin or trypsin to gain activity. Evidence indicated that the protein was Hageman factor (factor XII): it promoted clotting of factor XII-deficient, but not Factor XI- or IX-deficient plasma, and did not convert fibrinogen to fibrin it bound to and was activated by kaolin or other negatively charged particles in the presence of chelating agents; the activation by kaolin could be prevented by pretreating the kaolin with hexadimethrine bromide (H Br); prekallikrein-activating and clot-promoting activities were identical in their physical properties; and the prekallikrein activator could not be detected in Hageman factor-deficient plasma. Activation of Hageman factor was accompanied by cleavage of the molecule into several fragments, one of which possessed prekallikrein-activating (PKA) and clot-promoting properties. The PKA fragment sedimented at 2.6S and by gel filtration was found to have a molecular weight of 32,000. The PKA possessed only 1/50 the clot-promoting capacity of the freshly activated native molecule.
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PMID:The first component of the kinin-forming system in human and rabbit plasma. Its relationship to clotting factor XII (Hageman Factor). 410 92

A persistent puzzle in our understanding of hemostasis has been the absence of hemorrhagic symptoms in the majority of patients with Hageman trait, the hereditary deficiency of Hageman factor (factor XII). One proposed hypothesis is that alternative mechanisms exist in blood through which plasma thromboplastin antecedent (PTA, factor XI) can become active in the absence of Hageman factor. In order to test this hypothesis, the effect of several proteolytic enzymes, among them thrombin, plasma kallikrein, and trypsin, was tested upon unactivated PTA. PTA was prepared from normal human plasma by Ca(3)(PO(4))(2) adsorption, ammonium sulfate fractionation, and successive chromatography on QAE-Sephadex (twice). Sephadex-G150, and SP-Sephadex. The partially purified PTA was almost all in its native form, with a specific activity of 45-70 U/mg protein; the yield was about 10%. It contained no measurable amounts of other known clotting factors, plasmin, plasminogen, nor IgG. Incubation of PTA with trypsin generated potent clot-promoting activity that corrected the abnormally long clotting time of plasma deficient in Hageman factor or PTA but not in Christmas factor. This clot-promoting agent behaved like activated PTA on gel filtration (apparent molecular weight: 185,000) and was specifically inhibited by an antiserum directed against activated PTA. These data suggested that PTA can be converted into its active form by trypsin. PTA was not activated by thrombin, chymotrypsin, papain, ficin, plasmin, plasma kallikrein, tissue thromboplastin, or C. Trypsin converted PTA to its active form enzymatically. Whether trypsin serves to activate PTA in vivo is not yet clear.
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PMID:Partial purification of plasma thromboplastin antecedent (factor XI) and its activation by trypsin. 426 22

The activation of Hageman factor in solid and fluid phase has been analyzed. Activation of highly purified Hageman factor occurred after it interacted with and became bound to a negatively charged surface. Activation was observed in the absence of enzymes that are inhibitable with diisopropylfluorophosphate, phenyl methyl sulfonyl fluoride and epsilon-amino-n-caproic acid. The binding of [(125)I]Hageman factor to the negatively charged surface was markedly inhibited by plasma or purified plasma proteins. Activation of Hageman factor in solution (fluid phase) was obtained with kallikrein, plasmin, and Factor XI (plasma thromboplastin antecedent). Kallikrein was greater than 10 times more active in its ability to activate Hageman factor than plasmin and Factor XI. The data offer a plausible explanation for the finding that highly purified kallikrein promotes clotting of normal plasma. In addition, the combined results of this and previously reported data from this laboratory indicate that the reciprocal activation of Hageman factor by kallikrein in fluid phase is essential for normal rate of activation of the intrinsic-clotting, kinin-forming, and fibrinolytic systems. Activation of Hageman factor was associated with three different structural changes in the molecule: (a) Purified Hageman factor, activated on negatively charged surfaces retained its native mol wt of 80-90,000. Presumably a conformational change accompanied activation. (b) In fluid phase, activation with kallikrein and plasmin did not result in cleavage of large fragments of rabbit Hageman factor, although the activation required hydrolytic capacity of the enzymes. (c) Activation of human Hageman factor with kallikrein or plasmin was associated with cleavage of the molecule to 52,000, 40,000, and 28,000 mol wt fragments. Activation of rabbit Hageman factor with trypsin resulted in cleavage of the molecule into three fragments, each of 30,000 mol wt as noted previously. This major cleavage occurred simultaneously with activation.
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PMID:Activation of Hageman factor in solid and fluid phases. A critical role of kallikrein. 427 29

The structure of Hageman factor, isolated from human plasma, was analyzed before and after enzymatic activation. The purified molecule is a single polypeptide chain of 80,000 molecular weight (mol wt) sedimenting at 4.5S. An amino acid analysis has been performed. The concentration of Hageman factor in normal human plasma was found to be 29 mug/ml with variation between individuals ranging from 15 to 47 mug/ml. Treatment of the molecule with kallikrein, plasmin, or trypsin resulted in cleavage at two primary sites, yielding fragments of 52,000, 40,000, and 28,000 mol wt. No further changes occurred in the fragments with subsequent reduction. Prekallikrein-activating ability was associated exclusively with the 28,000 moiety.
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PMID:Structural changes accompanying enzymatic activation of human Hageman factor. 427 69

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