EC:3.4.21.7 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Thrombospondin (TSP), an adhesive integrin-binding protein of plasma and platelets, was detected in preretinal traction membranes from patients with idiopathic (8/8) and traumatic (7/8) proliferative vitreoretinopathy (PVR) and proliferative diabetic retinopathy (PDR) (6/8). TSP immunoreactivity was compared to the pattern of von Willebrand factor, plasma transglutaminase (blood coagulation factor XIII), fibronectin, and mononuclear phagocytes, using double-label immunofluorescence microscopy. TSP was partially colocalised with the endothelial cell marker, von Willebrand factor, in PDR. The codistribution of catalytic factor XIII and two cross-linking substrates, fibronectin and TSP, suggests a functional role of the enzyme in the extracellular matrix build-up in PVR and PDR. No significant TSP synthesis by mononuclear phagocytes was observed. Western blotting indicated a plasmin-mediated intravitreal breakdown of presumably plasmatic TSP in PVR and PDR.
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PMID:Thrombospondin: a new attachment protein in preretinal traction membranes. 135 87

The role of substances for wound healing in chronic subdural hematoma was investigated. Fibronectin, blood coagulation factor XIII (F X III), alpha 2 -plasmin inhibitor (alpha 2-PI) and alpha 2-PI plasmin complex (PIC) in hematoma fluid were measured, sixty cases of hematoma fluid (15 cases were bilateral chronic subdural hematomas) were used for analysis. The levels of fibronectin in hematoma fluid ranged widely from 40 to 1068 micrograms/ml. The levels of F XIII (except 1 case) in the hematoma fluid were less than 70% (normal plasma level 72-144%). And also the levels of alpha 2-PI in the hematoma fluid were lower than that in normal blood plasma (85-115%). Fibrin, fibronectin, alpha 2-PI and collagen crosslinks to these proteins by the catalytic action of the activated F XIII. These substrate proteins (except fibronectin) and F XIII were extremely low levels for wound healing. Histological analysis of the membrane with dura mater obtained from 13 patients was performed by Abidin-Biotin peroxidase Complex Method. Fibronectin was identified in outer membrane especially in sinusoidal layer. In normal wound healing, fibronectin appears early with the invading fibroblast and disappeares within 5 weeks from injury. But in chronic subdural hematoma it was not disappeares in 8 weeks after the head injury. The fact indicates the neomembrane of the chronic subdural hematoma is not in healing stage. This condition in chronic subdural hematoma is unfavorable for wound healing. Thus, author suspected that in early phase of wound healing after the head injury fibronectin and its related substances may play a role in the formation of chronic subdural hematoma.
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PMID:[Significance of the factors in wound healing for the origin of chronic subdural hematoma--fibronectin and its related substances]. 138 64

Thrombospondin (TSP), a platelet-derived protein of the integrin-binding family with adhesive and mitogenic properties was localized in surgically obtained epiretinal traction membranes from patients with traumatic (7/8) and idiopathic (8/8) proliferative vitreoretinopathy (PVR) and proliferative diabetic retinopathy (PDR) (6/8). Using double-label immunofluorescence techniques, we demonstrated co-localization of TSP with the endothelial cell marker, von Willebrand factor, in PDR; however, only a minority of labeled macrophages showed simultaneous staining for TSP. Therefore, macrophages are probably not a major source of TSP in PVR. We demonstrated co-distribution of blood coagulation factor XIII and two of its cross-linking substrates, fibronectin and TSP, in epiretinal membranes, as well as the detection of plasmin and presumably plasmin-induced TSP breakdown products in physiologic and pathologic vitreous. These results suggest that the coagulation system has a functional role in proliferative retinal disorders and imply that the application of inhibitors of the coagulation cascade like heparin may be a potential therapeutic approach.
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PMID:[Thrombospondin and its importance in proliferative retinal diseases]. 178 16

Coagulation factor XIII formed by thrombin activation from zymogen factor XIII decreases the chemiluminescence (CL) of human neutrophils stimulated by opsonized zymosan (Mannozym). At high concentrations, thrombin and plasmin also decreased the CL induced by opsonized zymosan. The inhibitory effect of all the three enzymes was due to their influence on the cell membrane receptors (C3b and Fe) and not to their direct effect on opsonized Mannozym. The potential clinical role of factor XIII, thrombin and plasma in the regulation of neutrophil functions is assumed.
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PMID:The effect of thrombin activated factor XIII, thrombin and plasmin on the chemiluminescence produced by human neutrophils stimulated by opsonized zymosan (Mannozym). 293 14

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.
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PMID:Cross-linking of alpha 2-plasmin inhibitor to fibrin catalyzed by activated fibrin-stabilizing factor. 612 43

Antigen levels of blood coagulation factor XIII (XIII) were determined in plasmas from patients with increased levels of fibrin degradation products-D-dimer (FDP-DD), including disseminated intravascular coagulation (DIC), by latex photometric immunoassay using polyclonal anti-XIII a subunit antibody-coated latex reagent. Since stable fibrin is directly degradated by plasmin and FDP-DD is produced, plasma FDP-DD levels correlate with plasmin-alpha 2-plasmin inhibitor complex levels, but not with thrombin-antithrombin III complex (TAT) or XIII levels. In order to clarify other causes of discordant relationships among the related three parameters, we studied the changes in plasma XIII, TAT and FDP-DD levels in fourteen DIC patients induced by various primary disorders. Only in two cases, XIII levels changed up and down irrelevant to the fluctuating levels of TAT and FDP-DD. In seven cases, plasma XIII levels remained low during the clinical courses, indicating possibilities that elevated condition of XIII consumption continued and/or production of XIII was low. On the other hand, in four patients, including two patients with nephrosis, XIII might be produced at higher rate than that of consumption. Same phenomenon was observed in one of eight recipients with living-related liver transplantation who showed remarkably increased levels of FDP-DD without DIC. In conclusion, plasma XIII level in patients with elevated FDP-DD may be influenced by the balance between consumption of XIII by unstable fibrin and/or surgical stress and the following tissue recovery etc. and production of XIII in liver, megakaryocytes and monocytes.
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PMID:[Studies on the blood coagulation factor XIII in patients with increased levels of FDP D-dimer]. 774 33

Blood coagulation factor XIII (FXIII) is a protransglutaminase that becomes activated by the concerted action of thrombin and Ca2+ in the final stage of the clotting cascade. In addition to plasma, FXIII also occurs in platelets, monocytes, and monocyte-derived macrophages. While the plasma factor is a heterotetramer consisting of paired A and B subunits (A2B2), its cellular counterpart lacks the B subunits and is a homodimer of potentially active A subunits (A2). The gene coding for the A and B subunits has been localized to chromosomes 6p24-25 and 1q31-32.1, respectively. The genomic as well as the primary protein structure of both subunits has been established, and most recently the three-dimensional structure of recombinant cellular FXIII has also been revealed. Monocytes/macrophages synthesize their own FXIII, and very likely FXIII in platelets is synthesized by the megakaryocytes. Cells of bone marrow origin seem to be the primary site for the synthesis of subunit A in plasma FXIII, but hepatocytes might also contribute. The B subunit of plasma FXIII is synthesized in the liver. Plasma FXIII circulates in association with its substrate precursor, fibrinogen. Fibrin(ogen) has an important regulatory role in the activation of plasma FXIII. The most important steps of the activation of plasma FXIII are the proteolytic removal of activation peptide by thrombin, the dissociation of subunits A and B, and the exposure of the originally buried active site on the free A subunits. The end result of this process is the formation of an active transglutaminase, which cross-links peptide chains through epsilon(gamma-glutamyl)lysyl isopeptide bonds. Cellular FXIII in platelets becomes activated through a nonproteolytic process. When intracytoplasmic Ca2+ is raised during platelet activation, the zymogen--in the absence of subunit B--assumes an active configuration. The protein substrates of activated FXIII include components of the clotting-fibrinolytic system, adhesive and contractile proteins. The main physiological function of plasma FXIII is to cross-link fibrin and protect it from the fibrinolytic plasmin. The latter effect is achieved mainly by covalently linking alpha 2 antiplasmin, the most potent physiological inhibitor of plasmin, to fibrin. Plasma FXIII seems to be involved in wound healing and tissue repair, and it is essential to maintaining pregnancy. Cellular FXIII, if exposed to the surface of the cells, might support or perhaps take over the hemostatic functions of plasma FXIII; however, its intracellular role has remained mostly unexplored.
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PMID:Novel aspects of blood coagulation factor XIII. I. Structure, distribution, activation, and function. 892 91

The hemostatic balance, introduced more than 40 years ago, addresses the components and reactions involved in fibrin turnover. Fibrin is placed in the core of this delicate balance. Defects in the mechanisms responsible for fibrin turnover might lead to thrombosis or bleeding, and fibrin consequently is an important substrate in the physiology of hemostasis. This review describes the components and processes involved in fibrin formation and fibrin degradation. Particular emphasis is put on the reactions involved in the conversion of fibrinogen to fibrin, the polymerization of fibrin molecules induced by coagulation factor XIII (FXIII), and the degradation of fibrinogen and fibrin mediated by plasmin and elastase. Furthermore, factors influencing fibrin structure and fibrin breakdown are addressed; in particular polymorphisms in the genes coding for fibrinogen and FXIII, but also the physical and biochemical conditions in which fibrin is formed. The past decades have produced a bulk of biochemical publications reviewing fibrin turnover and fibrin structure, and it has been shown that alterations in fibrin structure are important for the development of various disease conditions, whereas, the architecture of fibrin can be modified by certain drugs and chemical compounds. However, these topics deserve increased attention in clinical settings. Of particular importance might be more detailed clinical studies that review the influence of polymorphisms in the genes coding for the key factors involved in fibrin metabolism on the development of hemostatic diseases, but also the role of elastase-induced fibrin degradation deserves increased attention.
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PMID:Fibrin clot formation and lysis: basic mechanisms. 1114 Jul 97

To explore whether intravenous administration of routinely used crystalloid or colloid solutions differently affects the coagulation system, we investigated orthopaedic patients. Since crystalloid solutions might cause hypercoagulability, we here present our results on molecular markers of coagulation and fibrinolysis. Patients undergoing knee replacement surgery randomly received isovolemic amounts of lactated Ringer's solution, 6% hydroxyethyl starch 200/0.5 or 4% modified gelatine. Arterial blood samples for determination of specific molecular markers of activated coagulation (thrombin/antithrombin complex, D-dimer, prothrombin fragment F1 + 2), fibrinolysis (plasmin/alpha 2-antiplasmin complex, tissue plasminogen activator, plasminogen activator inhibitor-1), and concentrations of coagulation factor XIII were obtained at baseline, before tourniquet release, at the end of surgery and 2 h after operation. During the observation period, thrombin/antithrombin complex increased from 4.8 to 54.7 microg/l, D-dimer increased from 0.3 to 6.0 mg/ml, prothrombin fragment F1 + 2 increased from 1.7 to 5.9 nmol/l, tissue plasminogen activator decreased from 7.3 to 6.7 ng/ml, plasminogen activator inhibitor-1 increased from 68.4 to 71.0 ng/ml, plasmin/alpha 2-antiplasmin complex increased from 281.5 to 884 microg/l and factor XIII decreased from 89.0 to 58.5%. All parameters changed significantly but without any detectable difference in the response profile between the groups receiving different intravenous fluids. During knee replacement surgery a pronounced activation of the coagulation/fibrinolytic system was observed, regardless of whether patients received crystalloid or colloid fluids. Thus, these results cannot confirm the hypothesis that crystalloid fluids per se cause hypercoagulability in vivo.
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PMID:The effects of perioperatively administered crystalloids and colloids on concentrations of molecular markers of activated coagulation and fibrinolysis. 1506 Apr 16

Alpha2-antiplasmin (alpha2AP) is the primary inhibitor of plasmin, a proteinase that digests fibrin, the main component of blood clots. Two forms of alpha2AP circulate in human plasma: a 464-residue protein with methionine as the amino-terminus (Met-alpha2AP) and an N-terminally-shortened 452-residue form with asparagine as the amino-terminus (Asn-alpha2AP). Human plasma alpha2AP concentration is 1 micro M and consists of approximately 30% Met-alpha2AP and approximately 70% Asn-alpha2AP. The major form (Asn-alpha2AP) is rapidly crosslinked to fibrin during blood clotting by activated coagulation factor XIII and as a consequence, fibrin becomes more resistant to fibrinolysis. It is apparent that alpha2AP is important in modulating the effectiveness and persistence of fibrin with respect to its susceptibility to digestion and removal by plasmin. Hence, the physiologic role of alpha2AP suggests that it may be a useful target for developing more effective treatment of thrombotic diseases. Research on alpha2AP appears to be moving in two main directions: (1) efforts to use variant forms of alpha2AP to reduce bleeding secondary to thrombolytic therapy while not slowing thrombolysis; and (2) efforts to use variant forms to diminish the activity of alpha2AP as a plasmin inhibitor so that fibrinolysis becomes enhanced. Methods to accomplish these two goals mostly involve manipulation of defined functional domains within the molecular structure of alpha2AP, or inhibition of a newly described novel plasma proteinase, termed antiplasmin-cleaving enzyme, that generates the more favorable form of alpha2AP, Asn-alpha2AP, for crosslinking to fibrin. The antiplasmin-cleaving enzyme has similarity in primary structure and catalytic properties to fibroblast activation protein/seprase. This review summarizes recent studies that may hold promise for modulating alpha2AP activity and its interactions with certain proteins as new therapeutic strategies for preventing and treating thrombotic disorders.
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PMID:Alpha2-antiplasmin: potential therapeutic roles in fibrin survival and removal. 1532 Jul 81

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