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

Exhaustive extraction of human platelets with 6 M guanidine-HCl, and 5% beta-mercaptoethanol, followed by 5% SDS resulted in a sedimentable material which showed fibrous structure by transmission electron microscopy. When platelets treated with 8 M urea, 50 mM DTT and 2% SDS were applied on a 3% solubilizable acrylamide gel a high molecular weight material could be also isolated which was highly crosslinked by epsilon(gamma-glutamyl)lysine bonds. Its amino acid composition was Asp 110, Glu 119, Ser 55, Gly 70, Arg 33, Thr 41, Ala 112, Pro 93, Tyr 35, Val 18, Met 55, Cys 46, IIe 47, Leu 71, Phe 27, Lys 76 expressed as residue per 1000. The quantity of platelet polymer material as well as the amount of epsilon(gamma-glutamyl)lysine bond was slightly higher in thrombin activated platelets. The insoluble matrix of resting platelets reacts with antibodies against spectrin, alpha-actinin, actin, myosin, tropomyosin. The matrix from activated platelets has shown reaction with additional antibodies including ones against blood coagulation factor XIIIa, fibrinogen, von Willebrand factor, thrombospondin, tubulin and filamin. The presence of an epsilon(gamma-glutamyl)lysine cross-linked cell matrix in platelets is consistent with the observation of a similar structure in other cells.
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PMID:The presence of a covalently cross-linked matrix in human platelets. 200 80

The relationship between platelet calpain-activity and platelet procoagulant-activity was investigated by comparison of the time course of their generation after platelet stimulation by calcium ionophore A23187, or by the combined action of collagen and thrombin, or during exposure of platelets to the local anesthetics dibucaine or tetracaine. In addition, the Ca2+ dose-response curves of both activities in intact platelets, obtained by stimulation with A23187 in the presence of Ca2+/HEDTA-buffers, were compared. Platelet procoagulant activity was determined by assaying for prothrombinase activity in the presence of saturating concentrations of factors Xa, Va, and prothrombin. Platelet calpain activity was monitored by the degradation of its major substrates (filamin, talin, myosin) and the formation of their fragments as judged from protein patterns after gel electrophoresis. Platelet stimulation by A23187 resulted in a fast increase in prothrombinase activity, reaching its maximum level after about 20 seconds. Filamin and talin were completely hydrolysed within 15 s, and myosin was partly degraded between 15 and 30 s after platelet activation. When platelets were activated by collagen plus thrombin, prothrombinase activity was generated with a sigmoid time course, the steepest increase being observed between 1 and 2 min after platelet activation. Proteolysis of filamin and talin occurred between 0.5 and 1.5 min after platelet activation, while degradation of myosin became visible after 2 to 2.5 min. Dibucaine and tetracaine were both found to be potent stimulators of prothrombinase activity, with half-maximal activities obtained at 0.7 and 2.8 mM, respectively. Using suboptimal concentrations of both local anesthetics, it was found that the generation of prothrombinase activity closely paralleled that of calpain activity over a time course of 1 hour. Ca2+ titration of intact platelets using A23187 and Ca2+/HEDTA buffers, revealed half-maximal response at about 15 microM free Ca2+ for both calpain and prothrombinase activity. These findings strongly suggest a causal relationship between generation of a procoagulant platelet surface and calpain-mediated degradation of filamin, talin, and myosin. Since an increased procoagulant activity reflects an increased exposure of phosphatidylserine at the platelet outer surface, the present findings suggest that platelet cytoskeletal proteins are involved in the regulation of membrane lipid asymmetry.
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PMID:Correlation between calpain-mediated cytoskeletal degradation and expression of platelet procoagulant activity. A role for the platelet membrane-skeleton in the regulation of membrane lipid asymmetry? 282 Apr 87

The kinetic parameters and some enzymatic characteristics of human platelet and chicken gizzard transglutaminases were determined. Activity of the transglutaminases was regulated by calmodulin. These enzymes co-isolated with alpha-actinin and were dissociated from alpha-actinin by gel filtration and absorption onto a calmodulin affinity column. Silver-stained polyacrylamide gels showed that the protein peak eluted by EGTA from this column contained polypeptides of Mr approximately 58,000 and 63,000. The transglutaminases required Ca2+ for incorporation of monodansylcadaverine into casein and actin substrates. Activity was enhanced 3-fold by calmodulin with a biphasic effect, showing stimulation at 10-200 nM and inhibition at concentrations higher than 300 nM. In the presence of 200 nM calmodulin, half-maximal transglutaminase stimulation was obtained with 2.5 microM free [Ca2+]. Chlorpromazine inhibited calmodulin enhancement of the transglutaminases. Activity of the transglutaminases was independent of proteolytic activation, since inhibitors for Ca2+-dependent proteases failed to inhibit filamin cross-linking. For comparison, factor XIIa, a plasma and platelet transglutaminase, required both Ca2+ and thrombin for activation and was insensitive to calmodulin. The cross-linking pattern of fibrin, fibrin monomers, and fibrinogen by the calmodulin-regulated transglutaminases showed, by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, disappearance of fibrinogen alpha-chains with no decrease of beta- and gamma-chains or formation of gamma-gamma dimers. By autoradiography, cross-linked products of 125I-fibrinogen revealed heavily labeled high molecular weight polymers and polypeptides of Mr 98,000, 116,000, and 148,000; the latter appeared to be a transient species. However, when fibrin, fibrin monomers, and fibrinogen were used as factor XIIIa substrates, gamma-gamma dimers and alpha-polymers were formed. Formation of gamma-gamma dimers was slower with fibrinogen than with fibrin. Iodoacetamide blocked activity of factor XIIIa but not of the calmodulin-regulated transglutaminases.
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PMID:Catalytic properties of a calmodulin-regulated transglutaminase from human platelet and chicken gizzard. 286 89

Megakaryocytes from guinea pig bone marrow were isolated and maintained in liquid culture and were treated with ADP, thrombin, arachidonic acid, or collagen. Megakaryocytes spread with an active ruffled membrane in response to ADP (1-100 microM), thrombin (1.0 U/ml), and arachidonic acid (50 microM) but responded to collagen surfaces only if fibronectin was added to the cultures. Spreading could be blocked completely by dibutyryl cyclic AMP (dibutyryl cAMP) or isobutylmethylxanthine at 1 mM, as well as by cytochalasin D (2 microgram/ml), but not by colchicine up to 1 mg/ml. The distribution of contractile proteins was examined by immunofluorescence. In untreated, spherical cells, staining with antimyosin, antifilamin, anti-alpha-actinin, or with fluorescein-labeled subfragment 1 (FITC-S1) was diffuse and unpatterned. With antitubulin antibody, however, microtubules were seen in a dense array throughout the unspread cells. In actively ruffling spreading cells, myosin, filamin, and actin were visualized in the region of the ruffled membrane while alpha-actinin was seen most prominently in a band located proximal to the inner part of the ruffle. In fully spread cells, actin, myosin, filamin, and alpha-actinin were seen in filaments that filled the cytoplasm. Antimyosin and anti-alpha-actinin staining of the filaments was periodic with approximately 1 micrometer center-to-center spacing. Actin, filamin, and alpha-actinin were also identified in punctate spots throughout the spread cytoplasm. Microtubules were absent from the ruffle but filled the cytoplasm of fully spread cells. Rings, 1.5-2.5 micrometer in diameter, were seen with antitubulin in 13% of the spread cells. Our results show that megakaryocytes respond to platelet agonists, but typically by spreading, rather than extending, filopodia. From the changes in localization of contractile proteins and from time-lapse cinematography, we propose a model for cell spreading.
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PMID:Cultured megakaryocytes: changes in the cytoskeleton after ADP-induced spreading. 680 Oct 61

Membrane glycoproteins that mediate platelet-platelet interactions were investigated by identifying those associated with the cytoskeletal structures from aggregated platelets. The cytoskeletal structures from washed platelets, thrombin-activated platelets (platelets incubated with thrombin in the presence of mM EDTA to prevent aggregation) and thrombin- aggregated platelets (platelets activated in the presence of mM Ca(++) were prepared by first treating platelet suspensions with 1 percent Triton X-100 and 5 mM EGTA and then isolating the insoluble residue by centrifugation. The readily identifiable structures in electron micrographs of the residue from washed platelets had the shape and dimensions of actin filaments. Analysis of this residue from washed platelets had the shape and dimensions of actin filaments. Analysis of this residue by SDS gel electrophoresis showed that it consisted primarily of three proteins: actin (mol wt = 43,000), myosin (mol wt = 200,000) and a high molecular weight polypeptide (mol wt = 255,000) which had properties indentical to actin-binding protein (filamin). When platelets are activated with thrombin in the presence of EDTA to prevent aggregation, there was a marked increase in the amount of insoluble precipitate in the subsequent Triton extraction. Transmission electron microscopy showed that this residue not only contained the random array of actin filaments as seen above, but also organized structures from individual platelets which appeared as balls of electron-dense filamentous material approximately 1mum in diameter. SDS polyacrylamide gel analysis of the Triton residue of activated platelets showed that this preparation contained more actin, myosin and actin-binding protein than that from washed platelets plus polypeptides with mol wt of 56,000 and 90,000 and other minor polypeptides. Thus, thrombin activation appeared to increase polymerization of actin in association with other cytoskeletal proteins into structures that are observable after Triton extraction. The cytoskeletal structures from thrombin-aggregated platelets were similar to those from thrombin-activated platelets, except that the structural elements from individual platelets remained aggregated rather than randomly dispersed in the actin filaments. This suggested that the membrane components that mediate the direct interaction of platelets were in Triton residue from aggregated platelets. Only a small percentage of the membrane surface proteins and glycoproteins were found in the cytoskeletal structures from either washed platelets or thrombin-activated platelets. In contrast, the aggregated cytoskeletal structures from thrombin-aggregated platelets contained membrane glycoproteins IIb (26 percent of the total in pre-extracted platelets) and III (14 percent), suggesting that one or both of these glycoproteins participate in the direct interaction of platelets during aggregation.
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PMID:Identification of membrane proteins mediating the interaction of human platelets. 689 55

In this study we have followed the 32P-labeling of actin-binding protein as a function of platelet activation. Utilizing polyacrylamide-sodium dodecyl sulfate gel electrophoresis to resolve total platelet protein samples, we found 2--3-fold labeling increases in actin-binding protein 30--60 sec after thrombin stimulation. Somewhat larger increases were observed for 40,000 and 20,000 apparent molecular weight peptides. The actin-binding protein was identified on the gels by coelectrophoresis with purified actin-binding protein, its presence in cytoskeletal cores prepared by detergent extraction of activated 32P-labeled platelets, and by direct immunoprecipitation with antibodies against guinea pig vas deferens filamin (actin-binding protein). In addition, these cytoskeletal cores indicated that the 32P-labeled actin-binding protein was closely associated with the activated platelet's cytoskeleton. Following the 32P-labeling of actin-binding protein over an 8-min time course revealed that in aggregating platelet samples rapid dephosphorylation to almost initial levels occurred between 3 and 5 min. A similar curve was obtained for the 20,000 apparent molecular weight peptide. However, rapid dephosphorylation was not observed if platelet aggregation was prevented by chelating external calcium or by using thrombasthenic platelets lacking the aggregation response. Thus, cell-cell contact would seem to be crucial in initiating the rapid dephosphorylation response.
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PMID:Phosphorylation of platelet actin-binding protein during platelet activation. 719 58

Glycoprotein (GP)Ib-IX-V is one of the major transmembrane complexes present on the platelet surface. Its extracellular domain binds von Willebrand factor (vWF) and thrombin, while its intracellular domain associates tightly with the cytoskeleton through the actin-binding protein (ABP)-280, also known as filamin. In the present study, a full-length cDNA coding for a human ABP homologue has been cloned and sequenced. This protein was identified by the yeast two-hybrid screening procedure via its interaction with the intracellular domain of GPIbalpha. Initially, a 1.3-kb partial cDNA was isolated from a megakaryocyte-like cell line (K562) cDNA library followed by a full-length cDNA of 9.4 kb that was identified in a human placenta library. The full-length cDNA encoded a protein of 2,578 amino acids with a calculated molecular weight of 276 kD (ABP-276). The amino terminal 248 amino acids contained an apparent actin binding domain followed by 24 tandem repeats each containing about 96 amino acids. The amino acid sequence of the protein shared a high degree of homology with human endothelial ABP-280 (70% identity) and chicken filamin (83% identity). However, the 32 amino acid Hinge I region in ABP-280 that contains a calpain cleavage site conferring flexibility on the molecule, was absent in the homologue. An isoform containing a 24 amino acid insertion with a unique sequence at the missing Hinge I region was also identified (ABP-278). This isoform resulted from alternative RNA splicing. ABP-276 and/or ABP-278 were present in all tissues examined, but the relative amount varied in that some tissue contained both forms, while other tissue contained predominately one or the other.
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PMID:A novel human actin-binding protein homologue that binds to platelet glycoprotein Ibalpha. 969 15

Thrombin-induced endothelial cell barrier dysfunction is tightly linked to Ca(2+)-dependent cytoskeletal protein reorganization. In this study, we found that thrombin increased Ca(2+)/calmodulin-dependent protein kinase II (CaM kinase II) activities in a Ca(2+)- and time-dependent manner in bovine pulmonary endothelium with maximal activity at 5 min. Pretreatment with KN-93, a specific CaM kinase II inhibitor, attenuated both thrombin-induced increases in monolayer permeability to albumin and decreases in transendothelial electrical resistance (TER). We next explored potential thrombin-induced CaM kinase II cytoskeletal targets and found that thrombin causes translocation and significant phosphorylation of nonmuscle filamin (ABP-280), which was attenuated by KN-93, whereas thrombin-induced myosin light chain phosphorylation was unaffected. Furthermore, a cell-permeable N-myristoylated synthetic filamin peptide (containing the COOH-terminal CaM kinase II phosphorylation site) attenuated both thrombin-induced filamin phosphorylation and decreases in TER. Together, these studies indicate that CaM kinase II activation and filamin phosphorylation may participate in thrombin-induced cytoskeletal reorganization and endothelial barrier dysfunction.
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PMID:Regulation of endothelial cell barrier function by calcium/calmodulin-dependent protein kinase II. 1129 May 23

The platelet cytoplasm contains approximately half of the factor XIII (FXIII) transglutaminase content circulating in blood, yet the function of cytoplasmic FXIII is poorly understood. This study investigated functions of platelet FXIII in internal platelet processes by studying the interactions of FXIII with platelet cytoskeletal proteins. FXIII was present in cytoskeletal fractions of platelet lysate separated by centrifugation. When cytoskeletal fractions were immobilized on nitrocellulose membranes, thrombin-activated rFXIII (rFXIIIa*) or calcium ion-treated rFXIII (rFXIIIa degree) bound to some of these proteins, whereas untreated rFXIII did not. Utilizing fluorescence microscopy, an actin polymerization-dependent transient translocation of FXIII from a diffuse homogeneous distribution throughout the cytoplasm to the platelet periphery was observed upon platelet activation, suggesting an association with cytoskeletal proteins. Transglutaminase activity increased in cytoskeletal fractions of activated versus non-activated platelets. Immunoblotting analysis of platelet cytoskeletal fractions identified filamin and vinculin as being crosslinked upon platelet activation.
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PMID:Intracellular factor XIII crosslinks platelet cytoskeletal elements upon platelet activation. 1219 6

The platelet receptor for the von Willebrand factor (VWF) glycoprotein Ib-IX-V (GPIb-IX-V) complex mediates platelet adhesion at sites of vascular injury. The cytoplasmic tail of the GPIbalpha subunit interacts with the actin-binding protein, filamin, anchoring the receptor in the cytoskeleton. In motile cells, the second messenger phosphatidylinositol 3,4,5 trisphosphate (PtdIns(3,4,5)P3) induces submembraneous actin remodeling. The inositol polyphosphate 5-phosphatase, Src homology 2 domain-containing inositol polyphosphate 5-phosphatase-2 (SHIP-2), hydrolyzes PtdIns(3,4,5)P3 forming phosphatidylinositol 3,4 bisphosphate (PtdIns(3,4)P2) and regulates membrane ruffling via complex formation with filamin. In this study we investigate the intracellular location and association of SHIP-2 with filamin, actin, and the GPIb-IX-V complex in platelets. Immunoprecipitation of SHIP-2 from the Triton-soluble fraction of unstimulated platelets demonstrated association between SHIP-2, filamin, actin, and GPIb-IX-V. SHIP-2 associated with filamin or GPIb-IX-V was active and demonstrated PtdIns(3,4,5)P3 5-phosphatase activity. Following thrombin or VWF-induced platelet activation, detection of the SHIP-2, filamin, and receptor complex decreased in the Triton-soluble fraction, although in control studies the level of SHIP-2, filamin, or GPIb-IX-V immunoprecipitated by their respective antibodies did not change following platelet activation. In activated platelets spreading on a VWF matrix, SHIP-2 localized intensely with actin at the central actin ring and colocalized with actin and filamin at filopodia and lamellipodia. In spread platelets, GPIb-IX-V localized to the center of the platelet and showed little colocalization with filamin at the plasma membrane. These studies demonstrate a functionally active complex between SHIP-2, filamin, actin, and GPIb-IX-V that may orchestrate the localized hydrolysis of PtdIns(3,4,5)P3 and thereby regulate cortical and submembraneous actin.
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PMID:SHIP-2 forms a tetrameric complex with filamin, actin, and GPIb-IX-V: localization of SHIP-2 to the activated platelet actin cytoskeleton. 1267 85


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