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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)
The fibrinogen and fibrin degradation products (FDP) in serum samples taken from nine patients with suspected disseminated intravascular coagulation have been characterized using a method of immunoprecipitation followed by sodium dodecyl sulphate polyacrylamide gel electrophoresis. Aall of the serum samples contained a fragment with the same electrophoretic mobility as fibrinogen fragment X, while the majority also had evidence of fragments with similar mobility to fibrinogen fragments Y and D. In eight of the nine serum samples there was strong evidence of the D-dimer fragment that is released by
plasmin
lysis of crosslinked fibrin. Also present in all but one of the samples were fragments of higher molecular weight than fibrinogen which were probably soluble, non-clottable,
factor XIIIa
induced crosslinked derivatives of fibrinogen. These results suggest that during disseminated intravascular coagulation thrombin and activated factor XIII act upon fibrin(ogen) to form complexes that are subsequently lysed by
plasmin
to produce soluble crosslinked derivatives of fibrin.
...
PMID:Characterization of serum fibrinogen and fibrin fragments produced during disseminated intravascular coagulation. 36 18
Cadaveric aortic intimas with uncomplicated atherosclerosis were examined to determine the distribution and polypeptide chain composition of fibrinogen-related protein. Immunohistochemical staining showed deposits rich in fibrinopeptides A and B. The deposits were usually disseminated throughout intimas of moderate thickness < 0.7 mm, but were distributed focally in elongate patches bounded both lumenally and medially by deposit-free tissue in thick atheromas. Saline extracts generally showed undegraded monomers and dimers by electrophoresis. The residual protein contained A alpha and gamma-chains that were cross-linked predominantly (>80%) into unresolved high M(r) (>200 kd) derivatives, whereas B beta-chains were left non-cross-linked, as occurs in late stages of cross-linking by transglutaminases. The resolved components had electrophoretic mobilities corresponding to characteristic products of both
factor XIIIa
and tissue-transglutaminase. A greater incorporation of alpha- rather than gamma-chains into cross-linked products implicated tissue-transglutaminase as contributing heavily. By contrast, vascular graft pseudo-intimas and a cadaveric clot were rich in degraded fibrin devoid of fibrinopeptide A, and cross-linked in patterns typical of XIIIa with gamma 2 dimers constituting the principal product. The findings indicate that the fibrinogen in the aortic intima is comparatively well protected from thrombin and
plasmin
, and that much of it is deposited through direct cross-linking by tissue-transglutaminase without being converted to fibrin.
...
PMID:Immunoelectrophoretic and immunohistochemical characterizations of fibrinogen derivatives in atherosclerotic aortic intimas and vascular prosthesis pseudo-intimas. 141 80
The effect of inhibition of
factor XIIIa
with 2-(l-acetonylthio)-5-methylthiazolo[2,3-b]1,3,4-thiadiazo lium perchlorate (L-722,151) on coronary thrombolysis and reocclusion was studied in an acute dog model of electrically induced coronary thrombosis. L-722,151 (0.1 mg/kg/min intravenously [IV] or placebo was administered 15 minutes before current initiation (150 microA) and for the duration of the experiment (270 minutes). Fifteen minutes after thrombus formation, heparin (300 U/kg, IV) was administered, followed 45 minutes later by recombinant tissue-type plasminogen activator (tPA) (10 micrograms/kg/min, IV for 90 minutes). Placebo-treated animals thrombosed at 48.9 +/- 8.1 minutes (mean +/- SEM) and reperfused in response to tPA at 49.1 +/- 9.3 minutes. L-722,151 pretreated animals thrombosed at 44.4 +/- 9.7 minutes and reperfused in response to tPA at 16.4 +/- 2.8 minutes (P less than .05 v vehicle). Furthermore, residual thrombus mass was reduced by L-722,151 from 6.9 +/- 1.9 mg in placebo-treated animals to 1.7 +/- 0.6 mg (P less than .05 v vehicle). Acute reocclusion occurred in 86% of placebo and in 75% of L-722,151-treated animals. The incidence of tPA-induced reperfusion in L-722,151-treated dogs was 100% (8 of 8), whereas only 70% (7 of 10) of placebo-treated dogs reperfused. These results demonstrate that pretreatment with L-722,151 hastens reperfusion time threefold and reduces residual thrombus mass. These effects occurred with no change in systemic blood pressure in response to L-722,151. When L-722,151 was administered 15 minutes after thrombus formation in a separate group of dogs (n = 5), no beneficial effect on thrombolysis time or thrombus mass was observed. Thus, the specific
factor XIIIa
catalyzed crosslinking reaction(s), which may determine(s) resistance to
plasmin
-mediated fibrin degradation, occur(s) rapidly. Inhibition of this crosslinking by pretreatment with L-722,151 promotes tPA-induced thrombolysis.
...
PMID:Inhibition of factor XIIIa in a canine model of coronary thrombosis: effect on reperfusion and acute reocclusion after recombinant tissue-type plasminogen activator. 196 93
Interaction of tissue plasminogen activator (t-PA) with fibrin plays a key role in regulation of plasminogen activation and clot dissolution. Previous investigations of t-PA-fibrin interaction, using incorporation of t-PA into polymerizing fibrin clots, have suggested that no significant differences exist in the binding of one-chain or two-chain t-PA to non-cross-linked or cross-linked fibrin. In the present study, binding of 125I-labeled and affinity-purified one-chain and two-chain forms of t-PA to preformed non-cross-linked or cross-linked, sonicated suspension of fibrin was investigated. Interaction of one-chain t-PA with cross-linked fibrin involved a single type of binding site with dissociation constant (kd) of 0.58 mumol/L and a stoichiometry (n) of 1.5. Interaction of one-chain t-PA with non-cross-linked fibrin, however, involved two classes of binding sites with dissociation constants of 0.32 and 1.5 mumol/L and corresponding number of binding sites equal to 0.57 and 2.0, respectively. In contrast to the binding of one-chain t-PA to cross-linked fibrin by a limited number of sites, two-chain t-PA appeared to involve a considerably greater number of sites (minimum six) whose dissociation constant was 3.2 mumol/L. Interaction of two-chain t-PA with non-cross-linked fibrin also showed the presence of many binding sites (minimum seven) with approximate dissociation constant of 6.4 mumol/L, as well as a few (n = 0.012) high-affinity sites with a kd of 0.011 mumol/L epsilon-Aminocaproic acid did not completely reverse the binding of either one-chain t-PA or two-chain t-PA to fibrin. The present findings suggest that the fibrin-binding properties of t-PA undergo considerable changes on proteolytic conversion from one-chain to two-chain t-PA, catalyzed under physiologic conditions by
plasmin
. The cleavage of one-chain t-PA to two-chain t-PA allows to bind to a large number of low-affinity binding sites on fibrin. Cross-linking of fibrin by
factor XIIIa
results in masking of high-affinity binding sites that are present in non-cross-linked fibrin. We propose that both
plasmin
and
factor XIIIa
play an important regulatory role in dissolution of blood clots by modulating t-PA-fibrin interaction.
...
PMID:Differences between binding of one-chain and two-chain tissue plasminogen activators to non-cross-linked and cross-linked fibrin clots. 250 9
Thrombin activation of platelets induces the release of a high molecular weight glycoprotein, thrombospondin. On treatment with factor XIII transglutaminase and [3H]putrescine, thrombospondin undergoes specific incorporation of this labeled amine, with 2-3 mol of putrescine being incorporated per mol of thrombospondin. Analysis of
plasmin
digests of [3H]putrescine-thrombospondin showed that the Mr 53,000-core peptide contains the glutamine site for amine incorporation. In the absence of amine substrate, thrombospondin was found to provide both donor (glutamine) and acceptor (lysine) sites for intermolecular cross-links by factors XIIIa, and high molecular weight protein complexes were formed. Homopolymers of thrombospondin were also observed by electron microscopy. Thrombin-cleaved thrombospondin has more cross-linking sites accessible for [3H]putrescine incorporation or for cross-linkage to itself than does the uncleaved native protein. Examination of thrombospondin cross-linkage in the presence of other protein substrates (fibronectin, collagen, fibrinogen, and von Willebrand factor) for
factor XIIIa
, resulted in reduced thrombospondin polymer formation. Electron microscopy and autoradiography of fibrin clots formed in the presence of 125I-thrombospondin showed an association of thrombospondin with fibrin fibrils. However, confirmation that this association involves covalent epsilon-(gamma-glutamyl)lysyl cross-links between thrombospondin and fibrin was not obtained.
...
PMID:Characterization of thrombospondin as a substrate for factor XIII transglutaminase. 287 42
We have investigated the binding of blood
coagulation factor XIIIa
to thrombin-stimulated platelets using cytofluorometric analysis. Washed thrombin-stimulated platelets bound exogenously added
factor XIIIa
in a calcium-dependent reaction. The expression of endogenous platelet factor XIII was also detected on the surface of thrombin-stimulated platelets. When fluorescence analysis was performed based on particle size,
factor XIIIa
bound to the surface of greater than 95% of particles which contained more than one platelet, but only 50% of single platelets. The binding of
factor XIIIa
to thrombin-stimulated platelets was inhibited by
plasmin
. Plasmin also inhibited thrombin-dependent expression of the
factor XIIIa
binding site on platelets. Experiments in which thrombin-stimulated platelets were incubated with
factor XIIIa
in the presence of 125I-dimethylcasein or 3H-putrescine demonstrated that platelets bear both glutamyl and lysyl substrates for
factor XIIIa
. Thrombin increased the expression of
factor XIIIa
substrates by platelets. Plasmin inhibited both the expression of
factor XIIIa
substrates and degraded them. The binding of
factor XIIIa
to thrombin-stimulated platelets and the availability of
factor XIIIa
substrates on the platelet surface could provide a mechanism by which
factor XIIIa
stabilizes the hemostatic plug by promoting crosslinking reactions between platelet membrane proteins and adhesive glycoproteins. In contrast,
plasmin
inhibition of
factor XIIIa
binding and crosslinking could disrupt hemostasis.
...
PMID:Cytofluorometric identification of plasmin-sensitive factor XIIIa binding to platelets. 290 77
The abnormal fibrinogen Haifa is characterized by the fact that calcium present during enzymatic digestion by
plasmin
does not protect the Haifa D gamma chain against further
plasmin
attack as it does in normal molecules. Since calcium binding to fibrinogen, ADP--platelet aggregation cofactor activity and gamma dimerization process induced by
factor XIIIa
are normal for fibrinogen Haifa, the corresponding sequences in the gamma chain are not involved. It seems rather that the anomaly resides near the gamma 302
plasmin
cleavage site that is protected when calcium is bound to the gamma chain and that this affects the availability of the polymerization site located in the C terminal part of the chain.
...
PMID:Fibrinogen Haifa: fibrinogen variant with absence of protective effect of calcium on plasmin degradation of gamma chains. 295 55
Physiologic fibrinolysis is a reparative process that occurs in response to hemostatic plug or thrombus formation. The final enzymatic step, fibrin proteolysis, results from a coordinated interaction of enzymes and inhibitors, which produces effective action at the site of the disease and spares the proteins of the blood or uninvolved parts of the vascular system. The agent of fibrinolysis, the enzyme
plasmin
, is derived from its zymogen (plasminogen) through limited proteolysis effected by plasminogen activators. They can be grouped according to functional and immunologic properties into the tissue type and urokinase-like plasminogen activators. The ability of alpha 2 antiplasmin to neutralize efficiently free (nonfibrin-bound)
plasmin
prevents inappropriate systemic activation of fibrinolysis. This control is superseded in certain conditions, such as with the therapeutic administration of plasminogen activators to lyse pathologic thrombi, when
plasmin
degrades plasma fibrinogen into degradation fragments (X, Y, D, and E). Degradation of cross-linked fibrin results in distinctive products that are characterized by cross-linked (
factor XIIIa
-induced) derivatives such as D dimer. Disease states resulting from abnormalities in the fibrinolytic system include both hemorrhagic disorders, resulting from excessive fibrinolysis, and thrombosis, as the result of deficient fibrinolysis. Hyperfibrinolysis can result from pharmacologic administration of activators or from defective inhibition produced by alpha 2 antiplasmin deficiency. Hypofibrinolytic thrombosis can result from hereditary defects, for instance of plasminogen or fibrinogen, or from pharmacologic inhibition of fibrinolysis such as with epsilon aminocaproic acid. Laboratory evaluation of fibrinolysis is useful for monitoring fibrinolytic therapy and assessing thrombotic disorders and bleeding; it also includes the specific measurements of plasminogen activator, plasminogen,
plasmin
, inhibitors and circulating fibrinogen, and cross-linked fibrin degradation products.
...
PMID:Physiologic regulation and pathologic disorders of fibrinolysis. 354 75
Fibrinogen Chapel Hill II is a hereditary, abnormal fibrinogen which is characterized by poor substrate reactivity toward thrombin,
factor XIIIa
and
plasmin
. The patient has a low plasma level of clottable protein with normal antigen concentration, high amounts of fibrinogen related material in serum, and prolonged thrombin and reptilase clotting times. Fibrinopeptide release was decreased with both thrombin and ancrod, indicating that release of fibrinopeptide A from the abnormal fibrinogen was impaired. Sequence analysis indicated that the A peptide was normal. Light scattering indicated that the fibrils formed by thrombin were unusually short and thick. When clotted under crosslinking conditions gamma dimers formed normally but alpha polymer formation was defective. Under conditions which yielded complete
plasmin
digestion of normal fibrinogen only half of the patient fibrinogen was degraded beyond the fragment X stage. The rate of fibrinopeptide release from patient fragment X and NH2-terminal disulphide knot (N-DSK) was similar to that from the fibrinogen, indicating that the defect was contained within the N-DSK. A simple amino acid substitution could result in a conformational defect in the N-DSK sufficient to perturb the reactions involving thrombin,
factor XIIIa
and
plasmin
and also polymerization.
...
PMID:Fibrinogen Chapel Hill II: defective in reactions with thrombin, factor XIIIa and plasmin. 612 10
During blood coagulation alpha 2-plasmin inhibitor (alpha 2PI) is cross-linked with fibrin by an
activated fibrin-stabilizing factor
(FSFa) plasma transglutaminase, activated coagulation factor XIII). When alpha 2PI was treated with FSFa in the absence of acceptor amino groups, the inhibitor lost more than 90% of its capacity to be cross-linked to fibrin because of hydrolysis of the gamma-carboxamides of FSFa-susceptible glutamine residues. Chemical modifications of the inhibitor's lysine epsilon-amino groups did not affect the cross-linking capacity of the inhibitor with fibrin, whereas the same chemical modifications in fibrinogen resulted in a remarkable loss of cross-linking capacity. These observations suggest that alpha 2PI plays a role as an acyl donor with its FSFa-susceptible glutamine residues in the cross-linking reaction with fibrin, and fibrin serves as an acyl acceptor with its lysine residues. The number of FSFa-susceptible glutamine residues/molecule of the inhibitor was estimated by measuring the maximum incorporation of [3H]histamine into the inhibitor and by analyzing the distribution of radioactivity in a tryptic digest of [14C]histamine-incorporated alpha 2PI.l It was found that each inhibitor molecule has one glutamine residue that is most susceptible to FSFa. When the radioactive histamine-incorporated inhibitor was reacted with excess amounts of
plasmin
, a small fragment carrying all the released radioactivity was rapidly released from the NH2-terminal part of the inhibitor moiety of the complex. The NH2-terminal amino acid sequence of the inhibitor was analyzed before and after treatment with FSFa or before and after incorporation of radioactive histamine. The glutamine residue at the second position from the NH2-terminal end was converted to a glutamic acid residue when the inhibitor was treated with FSFa. When the radioactive histamine-incorporated inhibitor ws analyzed, the radioactivity was found predominantly at the second position from the NH2-terminal end. These results indicate that the glutamine residue susceptible to FSFa in alpha 2PI is located next to the NH2-terminal residue.
...
PMID:Cross-linking of alpha 2-plasmin inhibitor to fibrin catalyzed by activated fibrin-stabilizing factor. 612 43
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