Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
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Target Concepts:
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Drug
Enzyme
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Query: EC:3.4.21.7 (
plasmin
)
9,023
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
C1-inhibitor
is an important inhibitor of plasma kallikrein and C1, but also has inhibitory activity against numerous other plasma proteinases such as
plasmin
. The relevance of
plasmin
inhibition by the
C1-inhibitor
has been debated, with some evidence showing that
plasmin
causes significant proteolysis of
C1-inhibitor
. In the present study, we show that
C1-inhibitor
in its native state will inhibit
plasmin
without being significantly degraded, in a manner typical of all serpin reactions. However, if
C1-inhibitor
is in a denatured polymeric state (as can easily occur during storage, or as produced by heating of the native protein), it will be extensively degraded by
plasmin
. In addition, we show that hydrophobic interaction chromatography is an effective method to remove trace contaminants of inactive
C1-inhibitor
polymers.
...
PMID:The reaction between plasmin and C1-inhibitor results in plasmin inhibition by the serpin mechanism. 1244 10
Deficiency of C1 Inhibitor leads to unopposed activation of complement, with localized, unpredictable, and sometimes life-threatening attacks of angioedema. Treatment with plasma-derived C1 Inhibitor rapidly aborts attacks, and may be lifesaving, but is expensive, requires use of a pooled blood product, may need to be repeated and may not be effective in autoantibody mediated angioedema. The antifibrinolytic agents aprotinin, tranexamic acid, and epsilon-aminocaproic acid are useful for prophylaxis and treatment of angioedema, likely by inhibiting
plasmin
. Specific drugs to replace the deficient
C1 Inh
have not been reported. The kallikrein inhibitor DX-88 (Dyax) has received orphan drug status in Europe and is undergoing clinical trial in Europe and the USA.
...
PMID:Protease inhibitors in the treatment of hereditary angioedema. 1457 19
Aetiology of angioedema (and therefore the scheme of its treatment) can be different. Angioedema may be subdivided into four categories: hereditary and acquired angioedemas, allergies and vasculitis. To establish the reason of the hereditary and acquired form of angioedema analyses of functional activity of complement components, quantities and activity of
C1 inhibitor
, presence (or absence) autoantibodies to
C1 inhibitor
allow. Sorption of the puried enzymes of activated subcomponent C1s or
plasmin
on micropanels allows to connect specifically in cells of plate
C1 inhibitor
from serum and with the help conjugate of antibodies against
C1 inhibitor
with a horse-radish peroxidase to determine quantity of connected functionally active
C1 inhibitor
. Addition of this test-system ELISA system for determination of quantitative contents of
C1 inhibitor
in serum, and also systems for definition IgG, IgA and IgM autoantibodies against
C1 inhibitor
finishes creation of a necessary set of methods of differential diagnostics.
...
PMID:[Determination of the functional activity, amount of C1 inhibitor, and autoantibodies as a tool for differential diagnosis of angioedema]. 1510 31
In the hemodialysis patient, hemostasis changes may occur. The contribution of fibrinolysis in pathogenesis of these disorders is unclear. The aim of the study was to estimate intrinsic fibrinolysis pathway in patients treated with hemodialysis (HD) because of chronic renal failure caused by chronic glomerulonephritis. The study was performed with 43 patients; the control group consisted of 51 healthy volunteers chosen by sex and age. The following parameters were determined: concentration of the urokinase plasminogen activator antigen (uPA:Ag),
plasmin
--antiplasmin complexes (PAP), fibrin and fibrinogen degradation products (FDP), activity of prekallikrein (PK) and
C1-inhibitor
(
C1-INH
) and also euglobulin clot lysis time (ELT). The above parameters were assessed in the patients before and after HD and were compared with the control group. In the HD patients, in comparison with the control group, prolonged statistically ELT [153 (125;215) vs. 105 (75;142) min.; p<0.001], with increase of PAP (508.6 +/- 274.7 vs. 184.7 +/- 69.4 microg/L; p<0.001) and FDP concentrations [5 (5;15) vs. 2.5 (0;0.3) microg/mL; p<0.05] before the procedure were determined. It suggests increased
plasmin
production and fibrin digestion despite determination of decreased general fibrinolytic activity. The
C1-INH
activity before HD was also significantly increased as compared with the control group [157 (136;171) vs. 107 (100;124)%; p<0.001], and its significant decreased after the HD is 157.7 +/- 23.9 vs. 122.3 +/- 20.3%; p<0.001, as it seems to be a nondirect proof of intrinsic pathway contribution in fibrinolysis activation in the HD patients. The remaining examined parameters did not change significantly after the dialysis procedure.
...
PMID:The role of intrinsic fibrinolytic system activation in pathogenesis of hemostasis disturbances in hemodialyzed patients with chronic renal failure. 1535 69
We describe the case of a 30-year-old woman who reported several episodes of anaphylaxis with angioedema and relapsing urticaria. Some events were related to nonsteroidal anti-inflammatory drug intake and one episode followed alcohol ingestion, but in most cases no triggers could be identified. Specific immunoglobulin E determination was negative for food and drug allergens, C3 and C4 were in the normal range,
C1 inhibitor
was slightly reduced and
serum tryptase
was undetectable. In vivo autologous serum skin test and in vitro basophil histamine release assay were positive indicating the presence of circulating histamine-releasing factors. When oral tolerance tests were performed, only doxycycline was tolerated whereas levofloxacin, clarithromycin, nimesulide and tramadol caused mild urticaria. Premedication with cetirizine allowed the patient to tolerate levofloxacin, clarithromycin and nimesulide. The demonstration of circulating histamine-releasing factors in a patient with idiopathic anaphylaxis and multiple drug allergy syndrome provides a new mechanistic insight and might open the way to new therapeutic approaches.
...
PMID:Detection of serum histamine-releasing factors in a patient with idiopathic anaphylaxis and multiple drug allergy syndrome. 1746 Sep 52
Hereditary angioedema (HAE) is an autosomal dominant disease associated with episodic attacks of nonpitting edema that may affect any external or mucosal body surface. Attacks most often affect the extremities, causing local swelling, the GI tract, leading to severe abdominal pain, and the mouth and throat, at times causing asphyxiation. Most patients with HAE have low levels of the plasma serine protease inhibitor
C1 inhibitor
. The edema in these patients is caused by unregulated generation of bradykinin. Effective chronic therapy of patients with impeded androgens or
plasmin
inhibitors has been available for decades, but in the United States, we do not have therapy for acute attacks. Five companies have completed or are in the process of conducting phase 3 clinical trials, double-blind, placebo-controlled studies of products designed to terminate acute attacks or to be used in prophylaxis. Two companies, Lev Pharmaceuticals and CSL Behring, have preparations of
C1 inhibitor
purified from plasma that have been used in Europe for decades (trade names Cinryze and Berinert P, respectively). One company, Pharming, has developed a recombinant
C1 inhibitor
preparation. One company, Dyax, is testing a kallikrein inhibitor (ecallantide), and one company, Jerini, is completing testing of a bradykinin type 2 receptor antagonist (Icatibant). Although little has been published thus far, all of these products may prove effective. It is likely that HAE treatment will change dramatically within the next few years.
...
PMID:New therapies for hereditary angioedema: disease outlook changes dramatically. 1820 18
A single-site mutant of prouPA (M5) spared haemostatic fibrin during thrombolysis in dogs. Zymograms of plasma from these dogs showed an unusual inhibitor complex with
C1-inhibitor
(
C1I
). Purified
C1I
added to human plasma enhanced the fibrin-specificity of M5. In the present study, the effect of recombinant human
C1I
(recC1I) on high-dose M5 and tPA were compared using fluorescein-labeled standardised clots in a plasma milieu. The shortest time to complete clot lysis (maximum rate) was first determined. This was approximately 65% per hour for both activators. By contrast, their top fibrin-specific lysis rate (<20% fibrinogen depletion) was less than half maximum (25-30% per hour). Adding recC1I (250-750 microg/ml) did not affect fibrinolysis, but prevented fibrinogenolysis and plasminogen depletion by M5, raising its fibrin-specific lysis rate to the maximum. With tPA, the recC1I modestly attenuated fibrinogenolysis, raising its fibrin-specific rate to about half the maximum. Consistent with this, the t(1/2) inhibition by
C1I
was approximately 90 min for tPA compared with ~10 min for tcM5. The t(1/2) of
C1I
for
plasmin
was ~2 min. Zymograms of plasma after clot lysis indicated that recC1I prevented non-specific tcM5 generation from M5, as evidenced by suppression of tcM5:
C1I
complexes. In conclusion, recC1I raised the fibrin-specificity of M5 in plasma so that a maximum lysis rate could be achieved without fibrinogenolysis. The inhibition by
C1I
of non-specific but not fibrin-dependent plasminogen activation could not be duplicated by other serpins. The findings provide a potential means to optimize both the efficacy and safety of thrombolysis.
...
PMID:Recombinant human C1-inhibitor prevents non-specific proteolysis by mutant pro-urokinase during optimal fibrinolysis. 1965 78
Hereditary angioedema (HAE) was first described in the 19th century. Over the past 50 years, many details of the pathophysiology and molecular biology of HAE have been elucidated. Two types of HAE, type I and type II, result from mutations in the gene for the broad-spectrum protease inhibitor
C1 inhibitor
(
C1INH
). Type I HAE is characterized by low antigenic and functional
C1INH
levels and type II HAE has normal antigenic but low functional
C1INH
levels. Type III HAE, by contrast, has normal antigenic and functional
C1INH
levels. In some families, type III HAE has been linked to mutations in Hageman factor.
C1INH
is the primary inhibitor of the complement proteases C1r and C1s as well as the contact system proteases activated Hageman factor (coagulation factor XIIa and XIIf) and plasma kallikrein. It is also an inhibitor of
plasmin
and coagulation factor XIa. The primary mediator of swelling in HAE has now been unequivocally shown to be bradykinin, generated from activation of the plasma contact system. The knowledge gained concerning the underlying mechanisms of the different types of HAE allow the clinician to approach the laboratory diagnosis with confidence and provides opportunities for novel therapeutic strategies.
...
PMID:Pathogenesis and laboratory diagnosis of hereditary angioedema. 1984 2
The plasma bradykinin-forming cascade and the complement pathways share many elements, including cross-activation, common control mechanisms, and shared binding proteins. The
C1 inhibitor
(C1 INH) is not only the inhibitor of activated C1r and C1s, but it is the key control protein of the plasma bradykinin-forming cascade. It inhibits the autoactivation of Factor XII, the ability of Factor XIIa to activate prekallikrein and Factor XI, the activation of high molecular weight kininogen (HK) by kallikrein, and the feedback activation of Factor XII by kallikrein. Thus in the absence of C1 INH (hereditary angioedema or acquired C1 INH deficiency) there is unimpeded formation of bradykinin leading to angioedema. Activated Factor XII (Factor XIIa, 80,000 kDa) is further cleaved by kallikrein or
plasmin
to yield Factor XII fragment (Factor XIIf, 30,000 kDa) and Factor XIIf can activate the C1r subcomponent of C1, particularly when C1 INH (which inhibits Factor XIIf) is absent. Once bradykinin is formed, it causes vasodilatation and increased vascular permeability by interaction with constitutively expressed B-2 receptors. However degradation of bradykinin by carboxypeptidase N (in plasma) or carboxypeptidase M (on endothelial cells) yields des-arg-9 (Kerbiriou and Griffin, 1979) bradykinin which interacts with B-1 receptors. B-1 receptors are induced in inflammatory states by cytokines such as Interleukin 1 and its interaction with bradykinin may prolong or perpetuate the vascular response until bradykinin is completely inactivated by angiotensin converting enzyme or aminopeptidase P, or neutral endopeptidase. The entire bradykinin-forming cascade is assembled and can be activated along the surface of endothelial cells in zinc dependent reactions involving gC1qR, cytokeratin 1, and the urokinase plasminogen activated receptor (u-PAR). Although Factors XII and HK can be shown to bind to each one of these proteins, they exist in endothelial cells as two bimolecular complexes; gC1qR-cytokeratin 1, which preferentially binds HK, and cytokeratin 1-u-PAR which preferentially binds Factor XII. The gC1qR, which binds the globular heads of C1q is present in excess and can bind either Factor XII or HK however the binding sites for HK and C1q have been shown to reside at opposite ends of gC1qR. Activation of the bradykinin-forming pathway can be initiated at the cell surface by gC1qR-induced autoactivation of Factor XII or direct activation of the prekallikrein-HK complex by endothelial cell-derived heat-shock protein 90 (HSP 90) or prolylcarboxypeptidase with recruitment or Factor XII by the kallikrein produced.
...
PMID:The plasma bradykinin-forming pathways and its interrelationships with complement. 2058 91
Hereditary angioedema is an episodic swelling disorder with autosomal dominant inheritance. Attacks are characterized by nonpitting edema of external or mucosal body surfaces. Patients often present with swelling of the extremities, abdominal pain, and swelling of the mouth and throat, which can at times lead to asphyxiation. The disease is caused by a mutation in the gene encoding the complement
C1-inhibitor
protein, which leads to unregulated production of bradykinin. Long-term therapy has depended on the use of attenuated androgens or
plasmin
inhibitors but in the US there was, until recently, no specific therapy for acute attacks. As well, many patients with hereditary angioedema in the US were either not adequately controlled on previously available therapies or required doses of medications that exposed them to the risk of serious adverse effects. Five companies have completed or are currently conducting phase III clinical trials in the development of specific therapies to terminate acute attacks or to be used as prophylaxis. These products are based on either replacement therapy with purified plasma-derived or recombinant
C1-inhibitor
, or inhibition of the kinin-generating pathways with a recombinant plasma kallikrein inhibitor or bradykinin type 2 receptor antagonist. Published studies thus far suggest that all of these products are likely to be effective. These new therapies will likely lead to a totally new approach in treating hereditary angioedema.
...
PMID:An overview of novel therapies for acute hereditary angioedema. 2086 13
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