Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.21.5 (thrombin)
 33,306 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Accumulating evidence has demonstrated that protein kinase C (PKC) and protease nexin-1 (PN-1) may be involved in neuronal differentiation including migration, neurite outgrowth, target recognition, and synaptogenesis. We investigated the potential roles of PKC and PN-1 in neurite outgrowth of human neuroblastoma cell line, GOTO. Upon withdrawal of serum GOTO cells extended neurite processes within 3 h and formed fine network of neurites after 24 h. This morphological change was completely inhibited by thrombin and phorbol-12-myristate-13-acetate (PMA). Withdrawal of serum increased the neurofilament (NF)-L and -M mRNA levels and thrombin did not inhibit the effect of withdrawal of serum. A potent PKC inhibitor, H-7 induced neurite outgrowth in the presence of serum, however, it did not increase the NF mRNA levels. Actinomycin D and cycloheximide did not inhibit the initial neurite outgrowth induced by withdrawal of serum, while these inhibited the increase in the NF mRNA levels. Thrombin retracted the serum depletion-induced neurites but did not retract the neurites induced by H-7. The specific activity and subcellular localization of PKC did not differ between GOTO cells cultured in serum-containing and -free media for 12 h. The serine protease inhibitory activity was undetectable in the serum-free conditioned medium of GOTO cells but the PN-1 mRNA was clearly detected by Northern blot analysis to a less extent than glial cells. Withdrawal of serum or treatment with H-7 did not increase the PN-1 mRNA level in GOTO cells, but thrombin increased its level about 7 folds in serum-free condition. These results indicate that the initial neurite outgrowth requires neither new RNA nor protein synthesis, and that PKC negatively regulates neurite outgrowth and thrombin blocks neurite outgrowth through PKC-dependent pathways.
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PMID:Regulation of neurite outgrowth through protein kinase C and protease nexin-1 in neuroblastoma cell. 145 85

The hemostatic response to vascular damage results in the focal generation of thrombin to produce a fibrin/platelet clot at the site of vascular injury. This regulated hemostatic response derives from the assembly and activity of enzyme complexes that are localized to surfaces presented by the vascular damage. The product of each enzymatic complex provides the serine protease component required for the assembly and activity of each successive enzyme complex, ultimately leading to the formation of thrombin. When one limits attention to those complexes clearly associated with hemostatic or thrombotic risk, the significance of the vitamin K-dependent enzyme complexes becomes apparent. Each of these complexes involves a serine protease and a cofactor protein that assemble on a membrane surface in the presence of Ca++. The expression of an active complex involves, in addition to the activation of a zymogen to an enzyme, the presentation or activation of a cofactor protein and the provision of the appropriate membrane to support the reaction. The membrane plays an essential part in the formation and expression of vitamin K-dependent complexes; thus, its regulation is vital in the expression of procoagulant activity.
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PMID:The role of the membrane in the expression of the vitamin K-dependent enzymes. 145 80

Protein C is a natural anticoagulant glycoprotein which prevents intravascular clot formation. Protein C functions as an anticoagulant when converted to an active serine protease (activated protein C). Activated protein C is formed at the site of the endothelial injury in response to blood clotting and helps limit the size of blood clots. We tested the hypothesis that by temporarily blocking the activation of intrinsic protein C, we could reduce subsequent surgical blood loss from a microvascular surgical wound. The formation of activated protein C was blocked systemically by intravenous administration of a monoclonal antibody (HPC4) which binds to circulating protein C and prevents its conversion to activated protein C. Domestic pigs were blindly pretreated with intravenous HPC4 or saline then underwent partial-thickness skin graft harvesting to create a reproducible microvascular wound. Blood loss was measured from each wound and the hemostatic effect of protein C blockade was compared to intravenous saline alone as well as to topical thrombin or thromboplastin. We found that blocking the activation of protein C significantly (P = 0.005) reduces surgical blood loss in this model by 27% compared to saline control animals. Intravenous HPC4 performed equally as well as topical thrombin or tissue thromboplastin. In addition, topical thrombin acted synergistically with HPC4 to reduce blood loss an additional 44% (P = 0.01) as compared to intravenous HPC4 or topical thromboplastin alone. Autopsies performed 1 week after HPC4 treatment showed no evidence of systemic thrombosis resulting from the protein C blockade.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Blockade of protein C activation reduces microvascular surgical blood loss. 152 31

The serine protease thrombin (E.C.3.4.21.5) is well recognized for its central role in hemostasis. In addition, thrombin is unique among the enzymes participating in the clotting cascade, by virtue of its cell activation effects induced via the enzymatic pocket or via functional domains located throughout the molecule. In this review, we elaborate on "nonhemostatic" activities of thrombin among which are interactions with vessel wall components. These activities include promotion of cellular adhesion and induction of smooth muscle cell proliferation. Thrombin can exert these effects when it is in a fluid phase and when it is immobilized to extracellular matrix.
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PMID:Thrombin as a multifunctional protein: induction of cell adhesion and proliferation. 154 Mar 75

The thrombin-like serine protease and antithrombotic agent, Ancrod, was rapidly purified from the crude venom of Akistrodon rhodostoma by agmatine-Sepharose affinity chromatography followed by MonoQ anion exchange chromatography. N-Terminal sequencing and analysis of overlapping proteolytic fragments of purified Ancrod by automated Edman degradation in combination with tandem mass spectroscopy allowed the determination of the 234 amino acid sequence of the protease. Glycosylation sites at all five canonical N-linked glycosylation sites were inferred from the appearance of blank sequencer cycles in the amino acid sequence and were confirmed by mass spectroscopic analysis of the N-glycanase-treated peptides. Monoclonal antibodies raised against the denatured protein and HF-deglycosylated protein recognized Ancrod on Western blots. Sequence comparison to other thrombin-like serine proteases and reptilian fibrinogenases revealed a number of similarities, most notably the catalytic triad and many conserved cysteine positions.
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PMID:Amino acid sequence determination of ancrod, the thrombin-like alpha-fibrinogenase from the venom of Akistrodon rhodostoma. 154 12

Antithrombin-III-Stockholm is a new structural variant of antithrombin-III (AT-III) with normal heparin affinity but defective serine protease inhibitory activity. The proposita, a white female born in 1966, was diagnosed to have developed a pulmonary embolus while on oral contraceptives at age 19. The proposita, as well as her father, were diagnosed to have a type 2 AT-III deficiency as they had normal levels of immunoreactive AT-III associated with decreased (approximately 60%) functional AT-III when measured with either alpha-thrombin or factor Xa as the substrate, either in the presence or absence of heparin. There was no evidence of abnormal electrophoretic mobility of AT-III from the proposita either in the presence or absence of heparin. Genomic DNA was prepared and all seven AT-III exons were polymerase chain reaction (PCR)-amplified and sequenced in both directions using nested primers. Only exon 7 provided evidence for the presence of a mutation, with the second base of codon 392 having a G----A substitution. Such a mutation would cause the substitution of aspartic acid at the site of the normally appearing glycine in the translated product. Furthermore, this mutation caused the destruction of an Hae III restriction site at this point in the AT-III gene. The absence of this Hae III site was confirmed using restriction fragment length polymorphism analysis of PCR-amplified material from the proposita. Experiments with AT-III from the proposita together with experiments with cell-free translated AT-III-Stockholm provided evidence that the mutant AT-III protein does not efficiently form a stable covalent inhibitory complex with alpha-thrombin, although it exhibits normal heparin affinity. The minimal thrombin-complexing ability of the mutant AT-III protein that was observed was accelerated by heparin, but to subnormal levels.
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PMID:Antithrombin-III-Stockholm: a codon 392 (Gly----Asp) mutation with normal heparin binding and impaired serine protease reactivity. 1190 37

Coagulation factor X, when activated to factor Xa by proteolytic cleavage, itself becomes an active serine protease which participates as a component of the macromolecular prothrombinase complex along with factor Va, phospholipid, and calcium ions. To identify specific structural regions on factor Xa responsible for mediating its function in activating prothrombin, we used 21 synthetic peptides corresponding to 65% of the primary structure of factor X as potential inhibitors of prothrombin activation. Using purified components, thrombin formation was inhibited by seven peptides in a dose-dependent noncompetitive manner. Antibodies to selected inhibitory peptides affinity purified on a factor Xa-agarose column inhibited thrombin formation in a dose-dependent manner, indicating that the corresponding regions on factor Xa are surface-exposed. Kinetic analyses varying the order of reagent addition suggested that peptides 211-222, 254-269, and 263-274 were highly effective in preventing the factor Xa-factor Va interaction. Peptides 275-287 and 415-425 were considered to derive from a distal region involved in substrate binding, based upon mixed inhibition kinetic analyses and assuming that inhibitory peptides not inhibitory in factor Va binding are related to a specific region of substrate interaction. Cross-linking studies confirmed that peptides 263-274 and 263-276 could bind specifically to the light chain of factor V/Va. These findings provide the basis for further pursuing the precise definition of interactive sites on factor Xa using site-directed mutagenesis and molecular modeling.
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PMID:Molecular recognition sites on factor Xa which participate in the prothrombinase complex. 160 96

The ability of normal and malignant blood-borne cells to extravasate correlates with the activity of an endo-beta-D-glucuronidase (heparanase) which degrades heparan sulfate (HS) in the subendothelial extracellular matrix (ECM). The association of malignancy with different types of coagulopathies prompted us to study the effect of thrombin (EC 3.4.21.5), a serine protease elaborated during activation of the clotting cascade, on the ability of heparanase to degrade the ECM-HS. The circulating zymogen form of thrombin, prothrombin, was converted to proteolytically active thrombin during incubation with ECM. Thrombin generation by the ECM was time and dose dependent, reaching maximal conversion by 6 h incubation at 3 U/ml of prothrombin. Heparanase-mediated release of low Mr HS cleavage products from sulfate-labeled ECM was stimulated four- to sixfold in the presence of alpha-thrombin, but there was no effect on degradation of soluble HS. Similar results were obtained with heparanase preparations derived from mouse lymphoma and human hepatoma cell lines and from human placenta. Incubation of ECM with alpha-thrombin alone resulted in release of nearly intact high-Mr labeled proteoglycans. Thrombin stimulation of heparanase action was dose and time dependent, reaching a maximal value at 24 h incubation with 1 microM alpha-thrombin. The effect of modified thrombin preparations correlated with their proteolytic activity. Catalytically blocked preparations of thrombin (e.g., DIP-alpha-thrombin, MeSO2-alpha-thrombin) failed to facilitate heparanase action, while catalytically modified preparations (e.g., gamma-thrombin, NO2-alpha-thrombin) exerted only a slight enhancement. Antithrombin III (ATIII) and hirudin both inhibited thrombin-stimulated heparanase degradation of ECM-bound HS. Heparanase action was also facilitated by ECM-immobilized thrombin to an extent which was similar to that induced by soluble thrombin. This result implies that thrombin sequestered by the subendothelial ECM and protected from interaction with its natural inhibitor ATIII (Bar-Shavit et al., 1989, J. Clin. Invest. 84, 1096-1104) may participate locally in cellular invasion during tumor metastasis, inflammation, and autoimmunity.
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PMID:Thrombin enhances degradation of heparan sulfate in the extracellular matrix by tumor cell heparanase. 161 23

Protease nexin I (PNI), a 43,000- to 50,000-dalton glycoprotein, is a potent thrombin and urokinase inhibitor produced by many mammalian cells, including human glia, in tissue culture. PNI is a member of the growing superfamily of serine protease inhibitors now known as serpins, but, unlike many others of this family, it has not yet been detected in normal human plasma. Of interest to neurobiology and neurologic disease, PNI is identical to a glia-derived neurite-promoting factor, glia-derived nexin (GDN). Antibody to PNI stains the periphery of senile amyloid plaques in brain tissue from patients with Alzheimer's disease (AD), along with another serpin, alpha 1-antichymotrypsin (alpha 1-ACT). A soluble form of the beta-amyloid precursor protein (beta APP), containing a Kunitz-type trypsin inhibitor domain, the beta APP751 form, is identical to protease nexin II (PNII), a 100,000-dalton serine protease inhibitor present in a number of tissues besides the brain. PNII/beta APP is also found in normal and AD CSF. We found a 47,000-dalton PNI, a thrombin- and urokinase-inhibiting serpin, in normal human CSF by Western blotting using a monospecific antibody. We also demonstrated biologically active PNI capable of forming complexes with serine proteases 125I-urokinase or 125I-thrombin.
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PMID:Protease nexin I, thrombin- and urokinase-inhibiting serpin, concentrated in normal human cerebrospinal fluid. 162 Mar 46

Search for proteases responsible for an altered processing of APP which generates intermediates containing beta/A4 peptide is preceding to understand the formation of beta amyloid deposits characteristic of Alzheimer's disease, since many studies reveal that APP is ordinarily processed so as not to generate beta amyloid. Here, we have examined the action of thrombin, a serine protease in the blood clotting, in APP processing. Thrombin cleaved the mouse recombinant APP695 in vitro, resulting in the accumulation of 28 kDa fragment. The immunoblot analysis showed that the fragment is derived from the carboxy-terminal side of the recombinant APP695. Further, amino acid sequencing exhibited that the fragment is generated by the cleavage at Arg 510-Ile 511 and therefore includes entire beta/A4 peptide. We consider that the 28 kDa fragment is a possible intermediate for beta/A4 peptide. Thus thrombin may be involved in the altered processing of APP.
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PMID:Proteolytic processing of amyloid beta protein precursor (APP) by thrombin. 162 24


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