JPH08512291A - Method for enhancing thrombolysis - Google Patents

Abstract

  (57) [Summary] Fragments of von Willebrand factor (vWF) containing the platelet glycoprotein Ib (GPIb) binding domain are used in combination with known therapeutic methods to enhance protection against thrombus, improve thrombolysis, reocclusion after thrombolytic therapy, etc. Methods are provided to achieve a reduction in the symptoms of. In addition, the use of the vWF fragment and aspirin also provides a method of preventing complications after traumatic vessel injury.

Description

Detailed Description of the Invention                            Method for enhancing thrombolysis [Background of the Invention]   The present application is directed to enhancing protection against thrombosis, improving thrombolysis and post-thrombolytic treatment. In order to achieve a reduction in reocclusion propensity, platelet sugar Von Willebrand factor (vWF) containing the protein Ib (GPIb) binding domain ) Is intended to be used.   References referenced by Arabic numerals in parentheses are referred to at the end of this specification, in the claims. It is written just before.   Von Willebrand factor (vWF) forms a lining layer on the inner surface of the vessel wall In the endothelial cells that grow, large cells synthesized by megakaryocytes, which are precursors of platelets, It is a plasma protein.   Mature vWF contains domains that make up the binding sites for several proteins. It is a multivalent molecule. One of the domains is platelet glycoprotein Ib (GPIb) Constitutes the binding site for. By using the digestive digestion of proteins, this part Position is determined to be the position of the region between amino acid residues 449 and 728 of mature vWF. It was In addition, vWF has at least two collagen binding sites, at least two. One heparin binding site, one factor VIII binding site, and platelet GP · I It has one RGD site that binds to the Ib / IIIa receptor.   Von Willebrand factor plays an important role in hemostasis (24). Deficiency leads to the hereditary hemorrhagic disorder von Willebrand disease (VWD). Most Recent studies show that von Willebrand factor occurs especially in stenotic coronary arteries Essential for the formation of platelet thrombus under blood flow conditions characterized by strong shear stress Was found (24). Von Willebrand factor is a sugar on the platelet membrane. It interacts with the protein Ib receptor to initiate platelet adhesion (13- 15), ADP that causes platelet aggregation and thrombus formation, thromboxane and It activates the release of serotonin from platelets (16-20). Because of this, small blood Platelet adhesion by blocking the Ib receptor, a plate glycoprotein And efforts have been made to prevent thrombus formation. For example, aurin tricarboxylic Acid blocks the von Willebrand factor platelet glycoprotein Ib recognition site However, it is beneficial for antithrombotic therapy (25).   vWF (particularly binding of vWF to GPIb receptor) leads to normal platelet adhesion. The rationale for essentiality is based on both clinical observations and in vitro studies. It is based on Patients with von Willebrand disease (vWD) hemorrhagic disorders Is low, or is completely deficient in vWF. Or those patients May have a defective vWF. Another obstacle, Bernese Ruth Bernard-Soulier Syndrome (BSS) lacks the GPIb receptor. Characterized by the presence of platelets.   Hemostasis is a dynamic and continuous process. This process, on the one hand, causes bleeding It includes clot formation to prevent, while maintaining systemic blood flow is desirable. Includes poor fibrin deposition and lysis and degradation of platelet aggregation.   Studies show that most acute transmural myocardial infarctions occur in atherosclerotic coronary arteries Have been found to be caused by thrombus formation in (1-4). Cover the vessel wall Rupture of protective endothelium results in platelet adhesion, platelet aggregation and thrombus, which Blood supply to the heart muscle is blocked (5-7). Tissue plasminogen activ And thrombolytic agents such as streptokinase are associated with acute transmural myocardial infarction (" Has been shown to be effective in treating thrombosis in patients with "Q-wave infarction" (8-10) , Often with adjuvants such as anticoagulants such as heparin and aspirin Be administered. However, 15-20% of patients do not reach reperfusion. in addition , Re-occlusion of coronary arteries has limited the effectiveness of thrombolytic therapy in some patients. Limited (11-12).   Therefore, the time to thrombolysis should be shortened and reocclusion should not occur after thrombolysis. Enhancing thrombolytic therapy by reducing it is in the field of thrombolytic therapy. It will be a remarkable progress.   Platelet adhesion is an initiating event in both coronary thrombosis and reocclusion . A multivalent protein, von Willebrand factor (vWF), in platelet adhesion Is a glycoprotein I on the surface of platelets that circulates in the extracellular matrix under the skin A bridge is formed with b (13-15). Platelet adhesion to the subendothelial layer Activation of adenosine diphosphate (ADP), thromboxane and And the release of serotonin. These things in turn activate additional platelets To do. Finally, platelet plugs are formed (16-20). Therefore, platelet adhesion To prevent thrombosis and reocclusion of the coronary arteries ( 21).   Several peptides isolated from von Willebrand factor are platelet membrane glycoproteins. Von Willebrand factor and glycoprotein I bound to the protein Ib receptor Inhibits interaction with the b receptor. This inhibition causes platelet adhesion and blood Inhibition of platelet aggregation has been induced (22,23).   One such peptide, called VCL, is a disulfide within a single chain. Cys linked by a bond⁵⁰⁹Residues and Cys⁶⁹⁵Von Bill with residues Recombination fragment of blunt factor Leu⁵⁰⁴-Lys⁷²⁸(23).   VCL is an international patent application publication number WO 91/139 assigned with this application. No. 03, which also allows patients to undergo angioplasty, thrombolytic therapy or coronary therapy. By using vWF fragments alone before or after undergoing sigmoid artery bypass surgery A method of inhibiting platelet aggregation in the patient to obtain the desired effect. There is.   This time, vWF polypeptide fragment containing GPIb binding domain was used for thrombolytic therapy. Was found to result in significant therapeutic improvement when administered in combination with That is amazing That was, and it was unexpected. In one aspect, until reperfusion The time required for thrombolysis is significantly shorter, as evidenced by the reduced time. Another side In terms of terms, the incidence of reocclusion after thrombolytic therapy is significantly reduced. Cardiovascular hand When thrombosis is expected to occur as in surgery such as surgery, vWF polypepti Pretreatment with a fragment may reduce thrombus development.   In addition, the vWF GPIb-binding domain polypeptide and aspirin It was discovered to synergistically prevent complications after traumatic vessel injury. [Outline of Invention]   The present invention shortens the time to thrombolysis and reduces the occurrence of reocclusion after thrombolysis. In combination with decreasing thrombolytics and anticoagulants, vWF GPIb-binding domain Provided is a method of enhancing thrombolysis, comprising administering a polypeptide.   In a further aspect, the invention provides for complications following traumatic vessel injury in a patient. A predetermined amount that is a method for preventing and is effective in preventing the above-mentioned complications in cooperation. VWF GPIb-binding domain polypeptide in combination with a predetermined amount of aspirin And a method comprising administering to said patient. [Brief description of drawings]   Figure 1:  pvWF-VC3 plasmid   This figure isdeoP₁P₂VWF GPIb-binding domain under the control of a promoter 4 shows the pvWF-VC3 plasmid expressing the in-polypeptide. This plus Mid isE. FIG. coli(Escherichia coli) Sφ930 strain introduced, ATCC reception number 6 Deposited as No. 8241.   Figure 2:  pvWF-VCL plasmid   This figure shows λP_LPromoter anddeoUnder control of the ribosome binding site , The same vWF GPIb binding domain polypeptide as in pvWF-VC3 Shows a pvWF-VCL plasmid expressing This plasmidE. FIG. col i (E. coli) 4300 (F^-) Introduced into stock with ATCC reception number 68242 And was deposited.   3A-3C:  pvWF-VC3 plasmid and pvWF-VCL plus                   GPIb-binding domain polypeptide of vWF expressed by Mido                   Translated sequence of peptide   This figure shows the pvWF-VC3 plasmid (ATCC Accession No. 68241). And pvWF-VCL plasmid (ATCC accession number 68242) Of a von Willebrand factor GPIb-binding domain polypeptide The sequence is shown. This sequence consists of 226 amino acids including the N-terminal methionine. It   Numbering of nucleotides and amino acids starting from 1 is shown in the margin. Me t¹Is the initiator methionine. Array Leu²-Lys²²⁶Is an international special License application publication number W 12/091/13903, the sequence L of von Willebrand factor eu⁵⁰⁴-Lys⁷²⁸Is the same as   Figure 4:  Occlusion time in pretreated dogs   Pretreated with intravenous saline, VCL and aspirin (ASA) From electrical injury to formation of occlusive thrombus in the coronary arteries of different animals. Overtime (protoco 0.001.   Figure 5:  Thrombolytic time in pretreated dogs   Pretreated with intravenous saline, VCL and aspirin (ASA) Time from the administration of t-PA to the dissolution of thrombus in the coronary arteries of animals ( Protocol 1).   Figure 6:  Thrombolytic time in dogs without pretreatment   Thrombolysis from intravenous administration of thrombolytic agents in the coronary arteries of untreated animals Elapsed time to reach (Protocol 2).   Figure 7:  Reocclusion time in pretreated dogs   Smell of coronary arteries in animals pretreated with saline, VCL and aspirin Elapsed time from thrombolysis to reocclusion (Protocol 1). Saline Water combined with t-PA and aspirin combined with t-PA   Figure 8:  Reocclusion time in dogs without pretreatment   Treated with t-PA, heparin, VCL and aspirin The time elapsed from thrombolysis to reocclusion in the coronary artery of the Rotocall 2). A combination of t-PA with heparin, and t-PA with heparin Phosphorus and aspi 0.001.   Figure 9:  Hematocrit level after thrombolytic therapy   Hematoctomy before and after treatment with t-PA, heparin, VCL and aspirin Change in lit value (protocol 2).   Figure 10:  Coagulation time after thrombolytic therapy   Before treatment with t-PA, heparin, VCL and aspirin (ASA) 0) and activated clotting time (activate) after 5, 60, 120 and 180 minutes. d clotting time; ACT) (protocol 2). Control records prior to each treatment   Figure 11:  Platelet aggregation after VCL treatment   Induction of ADP before (control) and after treatment by intravenous administration of VCL Changes in platelet aggregation in vitro (Category A) and botrocetin Induced platelet coagulation   Figure 12:  Platelet aggregation after aspirin treatment   ADP before and after treatment with intravenous aspirin (control) Induced changes in in vitro platelet aggregation (A) and arachidonic acid-induced Platelets outside the body   Figure 13:  Synergy of GPIb binding domain polypeptide with aspirin   This figure shows the results of the experiment described in Example 3 as platelet deposition over time. . ■ -Aspirin + VCL @ 1mg / kg + 2mg / kg / hr; ● -VCL alone Germany @ 4 mg / kg + 8 mg / kg / hr; ▲ -control; ▼ -VCL alone @ 1 mg / kg + 2 mg / kg / hr; ◆ -aspirin alone. [Detailed Description of the Invention]   The present invention is a method of enhancing thrombolytic therapy in a patient, comprising a thrombolytic agent and And an anticoagulant, in an amount effective to enhance the thrombolytic therapy, von Bill Administration of Platelet Glycoprotein Ib Binding Domain Polypeptide of Blunt Factor to Patients Directed to a method comprising:   Enhancing thrombolytic therapy refers herein to thrombolysis and reperfusion. As a means of reducing time and reducing the incidence of reocclusion after thrombolysis Is defined.   The word "in conjunction" means "in advance", "in the middle" or "after" It is defined as meaning a combination.   The thrombolytic agent can be any thrombolytic agent known to those of skill in the art. Thrombolysis Examples of agents include tissue plasminogen activator (tPA) and strepto Includes kinases. The combination treatments of the invention also revascularize blocked blood vessels. And other known methods for maintaining vascular openness (eg, angioplasty) It is thought that it can be used in combination with).   In addition to the thrombolytic agent, other pharmaceutical substances, such as Contains anticoagulants such as heparin and aspirin, used individually or in combination It A known anticoagulant other than the above is used by those skilled in the art for the treatment of thrombolysis. May be.   In a particular embodiment of the invention said polypeptide is administered intravenously.   In a preferred embodiment of the invention, intravenous administration is a single injection, continuous infusion, or Or one continuous injection followed by continuous infusion.   In a particular embodiment of the present invention said polypeptide is 0.4-40 per dose. Administered intravenously at an applied dose of mg / kg body weight.   In a further preferred embodiment of the present invention, the polypeptide is 1- It is administered intravenously at an applied dose of 20 mg / kg body weight.   In a particularly preferred embodiment of the invention, the polypeptide is 2-1 per dose. It is administered intravenously at an applied dose of 0 mg / kg body weight.   In a particular embodiment of the present invention said polypeptide is 0.2-20 mg / h. / Kg body weight intravenously by continuous infusion.   In a particularly preferred embodiment of the invention, the polypeptide is 1-10 m / h. It is administered intravenously by continuous infusion at a rate of g / kg body weight.   In the most preferred embodiment of the invention, the polypeptide is 0.4-4 mg. 0.2-20 mg / kg body weight / hour after a single intravenous dose of Continuous infusion at a heavy rate.   In another aspect, the invention occurs during a surgical procedure, such as cardiovascular surgery. As may be the case, it is also associated with situations in which the development of thrombosis is predicted. Under such a situation Thus, pretreatment with a vPI GPIb-binding domain polypeptide resulted in the development of thrombosis. Could reduce life.   In another aspect, the invention prevents complications after traumatic vessel injury in a patient. And a predetermined amount of vWF GPIb binding domain polypeptide Together with a prescribed amount of aspirin in an effective amount to prevent complications. A method comprising administering to a subject.   Examples of causes of vessel damage due to trauma include coronary artery bypass surgery and angioplasty , Thrombolysis or unstable angina are examples, but are not limited to these. Not of. Traumatic vessel injury due to other therapeutic or clinical interventions Also included. Examples of complications resulting from traumatic blood vessel injury include , Myocardial infarction, ischemia, coronary artery bypass surgery, repeated angioplasty or death However, the present invention is not limited to these. As a result of other traumatic vessel injury All complications are also included.   An effective amount of vWF GPIb binding domain polypeptide is a single injection dose. About 0.1-20 mg / kg and continuous In the range of 0.1-20 mg / kg / hr by infusion, and effective amount of aspirin Is in the range of about 0.1-50 mg / kg. The exact dosage will depend on the particular case of treatment. It will be easily determined by those skilled in the art based on details.   The vWF GPIb binding domain polypeptide may be any suitable polypeptide known to those of skill in the art. Although it can be administered by painful clinical means, intravenous administration is a preferred embodiment of the invention. .   Aspirin is either clinically tolerable, either by oral or parenteral administration. It can be administered by a single dose, multiple doses or continuous administration. Can be administered. Parenteral administration includes intravenous, intraperitoneal and subcutaneous injections. Giving or intramuscular administration is applicable.   The glycoprotein Ib (GPIb) binding domain of von Willebrand factor is Natural von Willebrand factor or, for example, bacteria, fungi, plants, insects or Obtaining from many sources, such as the production of recombinant proteins in mammalian cells Can be.   "Von Willebrand Factor Glycoprotein Ib Binding Domain Polypeptides" Can be used in the method of the present invention, provided that it has a GPIb binding function. It also includes a homologue of the GPIb binding domain.   As used herein, a homologue of a polypeptide is substantially the same as the polypeptide. With polypeptides having equal amino acid sequence and substantially equal biological activity is there. Therefore, if the resulting homologous polypeptide is a polypeptide of the present invention, If it retains the biological action of tide, the homologue is one or more non-essential Which differs from the polypeptide of the present invention by the addition, deletion or substitution of specific amino acid residues. Can be. The person skilled in the art will know, for example, that the polypeptide of interest is Design and manufacture of a DNA sequence encoding bacterial expression of a tide homolog, part CD by site-directed mutagenesis techniques Modification of NA and genomic sequences, recombinant proteins and expression vectors -Construction, Bacterial Expression of Polypeptides, and Conventional Biochemical Quantitation Established including conventional methods for measuring the biochemical activity of polypeptides using Which amino acid residue is added, deleted or substituted (which Can be easily substituted (including may be substituted with a mino acid).   Examples of homologues of the polypeptides of the invention are those specified in the polypeptides of the invention. Deletion homologues containing less than all amino acid residues, 1 or Substituted homologs in which more specific residues are replaced by other residues, and 1 or more An addition in which the above amino acid residue is added to the end or middle position of the polypeptide Homologs, all of which are biological activities of the polypeptide of the invention. Similarly.   The substantially same amino acid sequence means here the amino acid sequence of the polypeptide. Is defined as including additions or deletions of less than 4 amino acids at the N-terminus of Be done. Furthermore, the said Substitutions and / or deletions in the sequence that do not abolish the biological activity of the protein Loss can also exist. An example of substitution is ser (serine) instead of cys (cystine) And ala instead of gly (glycine). Other substitutions , Are known to those skilled in the art. Substitution can be achieved, for example, by homologous groups described in Up to 10 residues may be included, depending on the valency group. (Lehninger,Biochemistry, lnd ed. Worth Pub., N.Y. (1975); Creighton,Protein Structure, a Pratical Approach, IRL Press al Oxford Univ. Press, Oxford, England (1989); and Dayhoff,Atlas of Protein sequence and structure 1972 , National Biomedical Research Foun dation, Maryland (1972))   Substantially the same biological activity is to the extent that one of ordinary skill in the art recognizes the same biological activity. It refers to the same biological activity as that of the polypeptide, as it may differ slightly.   "Von Willebrand Factor Glycoprotein Ib Binding Domain Polypeptides" The term has the same biological activity but different amino acid sequences. Of various vWF GPIb-binding domain variants and mutants  and variants) are also included.   The biological activity of the polypeptide within the meaning of the present invention refers to platelet glycoprotein I. ability to bind to b or to inhibit platelet adhesion to the subendothelial matrix .   to produce a recombinant polypeptide containing the GPIb binding domain of vWF. Examples of plasmids and hosts for In accordance with the provisions of the Budapest Treaty on the International Recognition of the Procedural Deposit of Microorganisms, and To meet this, ZIP number 20852, Parklo, Rockville, MD Dawn Drive 12301 American Type Culture Collection ( ATCC) of ATCC reception numbers 68241 and 68242, respectively. Deposited under February 26, 1990,Escherichia coli(E. coli) Sφ93 PvWF-VC3 plasmid in strain 0 andEscherichia coli(E. coli) 430 0 (F^-) The pvWF-VCL plasmid in the strain.                               Example   The following examples are provided to aid the understanding of the present invention, and in any sense. However, it is not intended to limit its scope, and it is interpreted as such. Should not be done. In the following examples, vector construction, Of the gene to be encoded into the vector, or the bacterium of the resulting plasmid It does not contain a detailed description of the conventional methods used for introduction into the host. Yes. Such methods are well known to those of skill in the art and are well known in many publications, including: Has been described. (Sambrook, Fritsch and Maniatis,Molecular Cloning: A Lab olatory Manual , 2nd Edition, Cold Spring Harbor Laboratory Press, USA (19 89))   Various methods for vWF in general and GPIb binding domain polypeptides in particular And other aspects, assigned and co-pending with this application, September 3, 1991 US patent filed in Permit Application No. 753,815, and PCT Publication WO 91/1 assigned together No. 3093, both of which are incorporated herein by reference. It   λP_LTransformed with a promoter-controlled plasmidE. FIG. col i Methods relating to the expression of recombinant proteins by (E. coli) are not specifically described in this application. U.S. Pat. No. 5,126,252 assigned on June 30, 1992 , Which is incorporated herein by reference.Example 1 :Oxidized and folded biologically active vWF GPIb-bound         Production and purification of main polypeptide   The pvWF-VCL plasmid (FIG. 2) was assigned together with this application and is pending. , U.S. Patent Application No. 753,815, filed September 3, 1991. And under ATCC Accession No. 68242,E. FIG. coli( E. coli) 4300 (F^-) Is maintained in stock. This host / plasmid system P_LRegarding a vector carrying a gene expressed under the control of a promoter, It is cultured basically as known in the art. That is, basically rice As described in US Pat. No. 5,126,252, mid-l og stage) at 30 ° C. and then at 42 ° C. for about 2 hours for peptide induction. went. Following culture and induction, the medium was centrifuged and the resulting cell mass (cel The l cake) was frozen and stored until further processing.   The general scheme of the procedure thereafter is composed of steps A to H below.   A.Inclusion body isolation   Following the above culture, the cell mass was added to 50 mM Tris-HCl (pH 8), 50 m. M NaCl, 1 mM EDTA, 1 mM DDT, 1 mM PMSF, and Resuspend in buffer containing 10% glycerol. Then into the suspension, supersonic Wave treatment to disrupt cells, centrifuge, and remove insoluble inclusion bodies (inclusion bodie A pellet containing s) is obtained.   The resulting pellet containing inclusion bodies had a final concentration of 8M urea, 20 mM DDT, A solution such as 20 mM HEPES (pH 8) and 100 mM NaCl. Dissolve it in the solution to about 10% (w / v). This solution is as follows And can be further purified by ion exchange chromatography. Or the inclusion body , Solubilized in a buffer containing 6M guanidine hydrochloride, followed by buffer exchange to urea. You can go. Inclusion bodies also contain different concentrations of urea, guanidine hydrochloride or other In the presence of either denaturant or in the absence of denaturant, e.g. May be dissolved.   B.Cation exchange chromatography   This process removes most of the contaminants and makes vWF GP more than 90% pure. An Ib binding domain polypeptide is prepared. For example, CM (Carboxymethyl Carboxymethyl) -sepharose fast flow chromatography Any cation exchange chromatography, such as Lumasia) Can be used in. The functional group is a carboxymethyl group, a phosphate group, or Sulfonic acid groups such as sulfopropyl groups are possible. The matrix is Can be used with organic compounds, synthetic resins, polysaccharides, or organic polymers as base materials Possible materials include agarose, cellulose, trisacryl and deca Kistran, glass beads, oxirane acrylic beads ), Acrylamide, agarose / polyacrylamide copolymer (Ultro Gel; Ultrogel) or hydrophilic vinyl polymer (Fractogel) There is. In a specific embodiment, the polypeptide is 8M urea, 1 mM DDT. , Equilibrate with 20 mM HEPES (pH 8), 100 mM NaCl buffer. Loaded CM-Sepharose FF column. Pure polypeptide has 8 M urea, 1 mM DDT, 20 mM HEPES (pH 8), 200 mM Na Elute in Cl buffer. For CM-Sepharose FF per ml, OD₂₈₀Is about Solubilized inclusion bodies can be loaded in amounts up to 30 units. Elute at this ratio Polypeptides are typically 4-5 OD₂₈₀/ Ml concentration.   C.Oxidation / Refolding   The polypeptide solution eluted in the cation exchange step described above will not aggregate any aggregates. It is also treated with 6M guanidine hydrochloride (GuCl) to destroy it. Then this Is preferably 20 mM HEPES (pH 8), 0.1 mM 2M GuCl aqueous solution containing GSSG (oxidized glutathione) at pH 5-11 With liquid, 0.05 OD₂₈₀/ Ml. Leave this mixture at room temperature overnight To do. The product is processed with a high-speed target such as Superose 12 prior to processing. Analyzed by gel filtration using protein liquid chromatography (FPLC) It This analysis shows that at this protein concentration, it is approximately 30% correct. Oxidized monomer and about 70% of S (sulfide) -bonded dimer and large amount The body as well as the reduced and incorrectly oxidized monomers It is shown that it can be obtained with actuality. The higher the protein concentration, the more A correctly oxidized monomer can be obtained with a large absolute production, but S-linked dimer and And increased formation of multimers results in the formation of a correctly oxidized monomer. The content will be lower. For example, 0.1 OD₂₈₀/ Ml concentration of tongue Only 20% yield of correctly oxidized monomer is produced from the protein. concentration To 0.025 OD₂₈₀Accurately oxidised unit by reducing The body yield is 35-40%, but the absolute yield per liter of oxidation is lower. It becomes. The oxidation is carried out in urea or any other denaturant instead of GuCl. Or in the absence of denaturants, such as pH, ionic strength and hydrophobicity. It may be performed under appropriately set buffer conditions. The preferred concentration of urea is 0 ． It is in the range 5M to 10M, preferably 4M, and the preferred oxidant is GSS. G, and the concentration range used is 0.01 mM to 5 mM, preferably Is 0.1 mM. CuCl₂It is also possible to use oxidants other than the above, such as Alternatively, only air oxidation may be used without adding an oxidant. Scale up To this end, 4M urea is currently the preferred oxidizing solution for this oxidation step. It is a liquid.   D.concentrated   Oxidation products are available as "MINITAN" or "PET" from Millipore. Tangential flow (t) with a membrane having a cut-off value of 30K, such as the "PELLIC0N" device. angular flow) by an ultrafiltration system, preferably about OD₂₈₀Concentrated to = 1 Be done. The filtrate is completely clear. Because the substance is relatively pure, the pollutant Most of them are so large that they cannot pass through the 30K membrane. Therefore, The filtrate of can be reused to carry out the oxidation. Freshly prepared 2M G Oxidation products of uCl and ox No difference was detected by FPLC analysis.   E. FIG.Dialysis   20 mM HE to reduce the concentration of GuCl or urea to less than 10 mM Dialysis against PES (pH 8), 100 mM NaCl buffer, buffered 2- Replaced 3 times and done in dialysis tubing, or with a MW cutoff value of 10K. In a tangential flow ultrafiltration device equipped with a membrane containing This is done by diafiltration.   GuCl (or urea or other denaturation during dialysis The concentration of the agent) decreases and a white precipitate is formed. This precipitation involves a cation exchange step Disulfide-bonded dimers, reduced monomers, and incorrect oxidation Included monomers and some contaminants. The supernatant is 0.2 OD₂₈₀/ M at a concentration of 1 with almost 100% correctly oxidized and refolded monomer Yes, this is about 20% of the Step D protein yield.   F.Pellet recovery   The yield of correctly oxidised monomer is determined by the amount of correctly oxidised monomer from the precipitate. It can be dramatically increased by recovering it. Accurately oxidised unit The solution containing the body is clarified by centrifugation. Contains precisely oxidized monomer The supernatant is stored. Disulfide-bonded dimers, reduced monomers, and fraud The pellet containing the accurately oxidized monomer is treated with DTT to restore the disulfide bond. Origin Subsequently, the pellet was treated with a minimum volume of 6M GuCl and 20 ml of HEPES. Dissolve in (pH 8), 150 mM NaCl, 20 mM DDT buffer. this The lysate was as described above except that it contained only 1 mM DTT (instead of 20 mM). Pass through Sephadex G25 in a buffer similar to the lysis buffer. Then the eluate is OD₂₈₀= 0.05, step C, step D and Processed as in step E. As long as additional purified monomer is obtained, this operation is It may be repeated twice or more. All the supernatants may then be combined together.   G.Cation exchange   The supernatant of the dialysate of step E and step F was collected and combined, C in 20 mM HEPES (pH 8), 100 mM NaCl buffer Bound to M Sepharose and concentrated. Elution was performed with 20 mM HEPES (pH 8). ), 400 mM NaCl buffer. The eluate is high salt concentration , Totally occupied by monomers. By this method the concentration reached up to 3 mg / ml But this is not the upper limit. This step is different from that described above using heparin-sepharose. Can also be done, again with 10 mM Tris (pH 7.4), 150 mM Binds to purified monomer in NaCI buffer. Heparin-Sepharose Elution was performed with 10 mM Tris-HCl (pH 7.4), 500 mM NaCl. It is performed using a buffer solution.   H.Dialysis   The purified product of the previous step was 20 mM HEPES (pH 8), 150 mM NaCl. Dialysed against buffer.   I.Save   At this stage, the purified vWF GPIb-binding domain polypeptide is lyophilized. You may dry. The resulting solution is re-dissolved in an amount of water equal to the volume before freeze-drying. Contains exclusively monomeric proteins, and dimers or other large amounts on FPLC No trace of body remains.   In a particular embodiment of the above method, the following operations were performed.   a) 10 gm (0.43 g net dry weight) of inclusion bodies with a final volume of 100 ml 8M urea, 20mM DT T, dissolved in 20 mM HEPES (pH 8), 100 mM NaCl buffer .   b) Protein was added to 8M urea, 1 mM DTT, 20 mM HEPES (pH 8), on a CM sepharose column equilibrated with 100 mM NaCl buffer Loaded 8M urea containing 200 mM NaCL, 20 mM HEPES (p H8), protein eluted with 1 mM DTT buffer was stored.   c) The stored eluate from the previous step was treated with 6M GuCl to remove aggregates. Treated, then 2M GuCl, 20mM HEPES (pH 8), 0.1m 0.05 OD with M GSSG buffer₂₈₀/ Ml. Oxidation chamber It was held overnight at a warm temperature. (The oxidation process can also be performed in the presence of urea instead of GuCl. Please note that. )   d) The oxidation products are ultrafiltered on a "minitan" unit containing a 30K membrane. By OD₂₈₀It was concentrated to = 1.   e) The concentrate of the previous step was 20 mM HEPES (pH 8), 100 mM Na. It was dialyzed against Cl buffer with three buffer exchanges. During dialysis, A white precipitate formed with decreasing GuCl concentration, which was removed by centrifugation and Once again it was reprocessed as above. The supernatants were combined.   f) The combined supernatants are 20 mM HEPES (pH 8), 100 mM N concentrated by binding to CM Sepharose in aCl buffer . Polypeptide is 20 mM HEPES (pH 8), 400 mM NaCl Opposition The solution was eluted and stored at 4 ° C.   g) The stored eluate from the previous step was 20 mM HEPES (pH 8), 150 It was dialyzed at 4 ° C. against mM NaCl buffer.   h) after dialysis, a purified vWF-GPIb binding domain polypeptide called VCL The peptide was freeze-dried.   VCL analysis   1. From the amino acid sequence analysis of VCL purified as described above, the N-terminal sequence was Met-Leu-His-Asp-, the sequence predicted according to Figures 3A-3C. It was revealed to be Phe.   2. From the examination of VCL by polyacrylamide gel, VCL was reduced ( lower under non-reducing conditions than under β-mercaptoethanol) It became clear that it moved to the position of apparent molecular weight. From compact shape This change to a less compact shape is consistent with disulfide bond reduction . Such an intramolecular bond is formed between the cystines at positions 509 and 695. Be done. (The change in molecular weight is not large enough to be consistent with the reduction of intermolecular bonds. )Example 2 :VWF GPIb binding in combination with thrombolytic therapy to prevent reocclusion         Use of domain   Overview   Reperfusion of the GPIb-binding domain polypeptide fragment of vWF Thrombolysis-enhancing ability by reducing the time to flow and re-occlusion after thrombolysis Preventive ability was studied. The GPIb binding domain fragments tested are described in Example 1. VCL polypeptide. According to the dog model, (1) Formation, (2) duration of thrombolysis, and (3) crown after thrombolysis with t-PA. The effect of VCL on the development of stenotic artery reocclusion was evaluated. The result is that VCL Delays thrombus formation, shortens the duration of thrombolysis, and reoccludes coronary arteries after thrombolysis Suggesting that it reduces the incidence of   In this dog model, thrombus formation was induced in the coronary arteries by electrical stimulation. Be done. Following thrombus formation, thrombolysis is associated with tissue plasminogen activator (t PA) is induced. Prevention of thrombus formation and reocclusion after thrombolysis The effect of GPIb binding domain polypeptides on reduction in development was tested. That According to the report, GPIb-binding domain polypeptide is associated with electrical stimulation of thrombus formation. It proved effective in delaying the onset. In addition, GPIb bound The main polypeptide shortens the time to reperfusion upon thrombolysis and reduces heparin And reduced the incidence of reocclusion when used in combination with aspirin for thrombolytic therapy I let you.   Method   All procedures used in this study are based on the American Physiologi Society. cal Society) and was taught by Hughes, Texas. The Instltution Committee on Animal Care and Use of the Texas Heart Society of Ston   Certified by al Animal Care and Use Committee at the Texas Heart Institute) It was done.   Surgical preparation   Pentobarbital nato for crossbreed dogs (n = 57) weighing between 25 and 35 kg Anesthesia with intravenous (30 mg / kg intravenously), intubation, and mechanical artificial Respirator (Natick, Mass., Harvard model)  Model) 60). A plastic catheter monitors aortic pressure. Placed in the carotid artery for It was placed in a vein. A left fifth intercostal thoracotomy was performed and the heart was placed on the pericardium. It was 1 cm to 2 cm of the left anterior descending coronary artery is carefully exposed, and A nearby branch vessel was ligated. Ultrasonic Doppler blood flow probe (Hughes, Texas Ston, Hartley. Exposing Instruments (manufactured by Hartley Instruments) The blood flow velocity was measured by placing the blood vessel near the left anterior descending coronary artery. Heart rate, income Including systolic and diastolic aortic pressure, and phasic and mean coronary blood flow velocities, An 8-channel recorder with standard hemodynamic values (Cleveland, Ohio, Gould, model 3000).   Needle electrode (10 cm long 30 gauge silver wire insulated with Teflon) The Doppler-type blood flow probe has a 8 mm tip with a 25th needle pleated on the end. Distal to the left anterior descending coronary artery at an angle approximately 4 mm was inserted. This needle-shaped electrode was vascularized with 6-0 silk suture. Fixed on top. Needle / wire the heat shrink tubing to prevent the electrical current from damaging the surrounding tissue. It was used for the solder connection part of the wire. Connect the ground wire to the subendothelium Completed the electric circuit. A current of 150 μA was applied to the electrodes to induce thrombosis. And energized. This electrode is the anode of a 9V battery, a 50kΩ potentiometer , A multimeter, and one connected in series to the ground wire. there were. Thrombus formation is measured by a decrease in coronary blood flow velocity, which is Was monitored by a Doppler-type blood flow probe located at The current is a persistent blood clot It was maintained for up to 30 minutes after the onset of sexual obstruction.   Experimental method   Two separate protocols were adopted in this study for VLC. Of which In one, the effect on coronary thrombus formation was tested and in the other, blood The effect on plug dissolution and reocclusion was tested.   Protocol 1.  To evaluate the effect of VLC on thrombus formation in coronary arteries For this reason, the treatment is for the above dogs 30 minutes of electrical stimulation of their coronary arteries. Started earlier. Studies were conducted in three different groups of animals. Control group (n = 12) In the above, physiological saline was intravenously administered at 1 ml / min. One of the test groups In (n = 7), VLC was administered at 4 mg / kg body weight in a single injection. A continuous infusion of 2 ml / (kg-h) was administered intravenously until the end of the study. In another test group (n = 8), aspirin received 5 It was administered intravenously in an amount of ml / kg body weight. Of coronary blood flow before and after electrical stimulation The changes were carefully monitored. Complete occlusion of coronary artery from the start of electrical stimulation The total amount of time elapsed up to was recorded. Three hours after complete occlusion of the coronary arteries, For all test animals, one injection of 80 μg / kg body weight of t-PA (Genentech, Inc., San Francisco, PA) was administered intravenously and Intravenous administration of t-PA at a dose of 8 μg / (kg-min) for 90 minutes by continuous infusion. I gave it. This procedure is intended to induce lysis of thrombus formed in the coronary arteries. It   Coronary blood flow velocity recovered to at least 70% of the value shown before thrombus formation At the time point, the thrombus was considered to be lysed (and the artery was reperfused). t -The total time elapsed from PA administration to reperfusion is the thrombolysis time or reperfusion. Recorded as flow time. Dogs without reperfusion 90 minutes after t-PA infusion Was excluded from subsequent studies. Coronary artery reocclusion in dogs with reperfusion Or further monitored until 180 minutes elapsed without reocclusion. Reperfusion The time from to reocclusion was recorded as the reocclusion time. 180 minutes after reperfusion Dogs whose coronary arteries did not reocclude were considered not reoccluded. Reocclusion For awake dogs, 30 to ensure that it is a persistent reocclusion. Monitored for minutes.   Protocol 2.  Further detailed effects of VCL on thrombolysis and reocclusion For further study, additional experimental animals were studied and treated 3 hours after coronary artery occlusion. went. The animals were assigned to one of the following four additional groups. 4 groups , T-PA and heparin (n = 7); t-PA, heparin and VCL (n = 7); t-PA, heparin and aspirin (n = 8); t-PA, heparin , VCL, and aspirin (n = 8). Heparin is a single intravenous injection 200 U / kg was administered. t-PA, VCL, and aspirin Call 1. It was administered with the same prescription. Follow-up for thrombolysis and reocclusion is also Protocol 1. As well as done.   Study of hematocrit, coagulation and platelet aggregation   The hematocrit value is the protocol 2. For all dogs in t-PA It was inspected at and before the end of giving. Activated whole blood coagulation time is important for those dogs. And an automatic blood coagulation time measuring device (Englewood, Colorado) 2001370, manufactured by HemoTec, before t-PA administration and 5 minutes After 60 minutes, after 120 minutes and after 180 minutes.   Protocol 1. And administration of VCL and aspirin in dogs in Japan After 10 minutes, in vitro platelet aggregation was analyzed. Blood samples were taken with sodium citrate. Collected in a plastic tube containing a 3.8% solution of blood (9 volumes of blood: sodium citrate). 1 volume). Blood samples were centrifuged at 200 xg for 20 minutes and platelet rich plasma (plate let-rich plasma) and centrifuge the remaining blood at 3000 xg for 10 minutes. Platelet-poor plasma was obtained. Platelet count in platelet-rich plasma is 3 0,000 / mm³Was adjusted to. 4-channel platelet aggregometer (Pennsylvani A PAP-4 model manufactured by Bio-Data of Horsham, A.) Was used for quantification. The agonist (agonist) and its final concentration are 5 μM, 10 μM and 20 μM for Sigma, St. Louis, Li; Botro Cetin (botrocetin; Fujimura et al., Biochemistry30: 1957-1964 (1991) Prepared in accordance with the above method) was 1.1 μg / ml, 2.2 μg / ml and 4.4 μg / ml. ml; and arachidonic acid (Sigma, St. Louis, Mo.) 12. They were 5 μg / ml, 25 μg / ml and 50 μg / ml. Dog platelets Since it does not aggregate by reacting with arachidonic acid, 10 μmol / 1 concentration of epinephrine was added to the platelet suspension. The degree of platelet aggregation is Percentage of increased light transmission in platelet plasma to light transmission in platelet poor plasma Was reported as the maximum value of.   Statistical analysis   All values are “standard error of mean (SEM) Is expressed as Fisher's exact test is different It was used to compare the frequency of reperfusion and reocclusion in different groups of animals. About repeated measurements Animals with different one-way analysis of variance (ANOVA) Obtained at different time intervals and different durations until reperfusion and reocclusion in groups It was used to compare the determined hemodynamic values and activated clotting times. Stu Dent'stAssays were performed to determine platelet aggregation and hematology before and after treatment in each animal group. It was used to compare percentages of matocrit values. Less than 0.05p Values were considered significant.   result   Thrombus formation in coronary arteries   As determined by the reduction in blood flow velocity to approximately 65% of the reference level, Some stenosis in all arteries of experimental animals due to insertion of electrode needle into stenotic artery Occurred (Table 1 and Table 2). After electrical stimulation, in all experimental animals, A complete occlusion occurred in the injured coronary artery. Electricity in Protocol 1 The time lapse from mechanical stimulation to complete occlusion of the coronary arteries was measured by saline treatment. Dogs treated with VCL (inp<0.001) and aspi Dogs treated withpIt was significantly longer at <0.05) (Fig. 4). You Aortic blood pressure and heart rate were minimal after occlusion of the coronary artery in all experimental animals. Changed to. However, in experimental animals treated with aspirin, heart rate And mean aortic blood pressure increased at each time point (Table 1).   Thrombolysis   In Protocol 1, 3 hours after coronary artery occlusion, only t-PA was used for experimental movement. Was administered to the object. Of 12 dogs treated with saline by administration of t-PA 4 (33%), 5 out of 7 VCL-treated dogs (71%), and And thrombolysis occurred in 4 out of 8 dogs (50%) treated with aspirin. The average elapsed time from t-PA treatment to thrombolysis (thrombolysis time) is physiological saline. Significantly shorter in VCL-treated dogs than in treated dogs (p<0.05, FIG. 5).   In Protocol 2, dogs were pretreated prior to occlusion of the coronary arteries. No, he received thrombolytic therapy 3 hours after coronary artery occlusion. t-PA and heparin Induced thrombolysis in 5 out of 7 dogs (71%); t-PA, hepari And VCL induce thrombolysis in 6 of 7 dogs (86%); t -PA, heparin and aspirin were found in 7 out of 8 dogs (85%) Induces thrombolysis; and t-PA, heparin, VCL and aspirin in dogs Thrombolysis was induced in 8 out of 8 (100%). t-PA, heparin, Mean thrombolysis times in dogs treated with VCL and aspirin were t-PA and Slightly greater than half the mean thrombolysis time in dogs treated with heparin alone Yes (23.5 ± 4 minutes vs 45 ± 12 minutes). However, the difference is It was not statistically significant (Fig. 6).   Reocclusion   During the 3-hour monitoring period after thrombolysis, many experimental animals Reocclusion occurred. In Protocol 1, the frequency of reocclusion was Treated dogs (4 out of 4), aspirin pre-treated dogs (4 out of 4) 4 dogs) or VCL pretreated dogs (4 out of 5 dogs) It wasn't different. However, the average time from thrombolysis to reocclusion (re Occlusion time) than in dogs pretreated with saline and aspirin , Was significantly longer in dogs pretreated with VCL (FIG. 7).   In Protocol 2, reocclusion of coronary arteries was treated with t-PA and heparin. Occurred in 5 of the 5 dogs placed, and aspirin was added to them. The frequency of reocclusion (7 out of 7 individuals) did not change even when added. tp Addition of VCL to A and heparin to reperfused coronary arteries in dogs The frequency of reocclusion was significantly reduced (2 of 6; t-PA and Compared to the Palin group,p<0.05). Adding VCL and aspirin Also significantly reduced the frequency of re-occlusion (1 out of 8 individuals; tp Compared to the A, heparin, VCL group,p<O. 01). The average reclosure time is also , In dogs treated with VCL than in dogs not treated with VCL It was significantly longer (Fig. 8).   Study of hematocrit, coagulation and platelet aggregation   In dogs treated with t-PA alone, around the surgical site Bleeding was not significant. Incision by adding VCL or aspirin Mild bleeding occurred along the area. t-PA, heparin, VCL and as The combination of pilin resulted in moderate to severe (moderate to sev ere) I had bleeding. However, hematocrit values are t-PA, heparin, No significant change in any group after treatment with VCL and aspirin It was (Fig. 9).   The activated coagulation time was significantly prolonged immediately after administration of t-PA and heparin (Fig. 10). This value was 1.5 times the reference value after 1 h of treatment and 3 h after treatment. Was recovered to a value slightly higher than the standard value. Aspirin or VCL, or The combination of aspirin and VCL did not affect the activated coagulation time It was.   In vitro platelet aggregation induced by ADP is not affected by VCL infusion (FIG. 11A), but was slightly reduced by aspirin injection (FIG. 12A). Bot Rocetin-induced platelet aggregation was completely inhibited by VCL treatment (Fig. 11). B), and arachidonic acid-induced platelet aggregation was completed by aspirin injection. (Fig. 12B).   Conclusion   The data obtained from the studies in the present invention show that VCL indicates intracoronary thrombus formation. Prolongs time, enhances t-PA-induced thrombolysis and coronary artery reclosure It illustrates delaying the occlusion.   Intravenous administration of VCL prior to electrical injury to the coronary arteries This significantly increases the time required to form an obstructive thrombus in the body. Botroseti In vitro-induced platelet aggregation in vitro was completely inhibited by the treatment. these Data for the interaction between von Willebrand factor and platelet glycoprotein Ib. By blocking the action, both the stenosis site of the coronary artery and the injury site of the endothelium To reduce platelet aggregation and also to reduce the formation of occlusive thrombi. Suggest.   After the occlusive thrombus is formed in the coronary artery, t-PA infusion causes thrombolysis. Get up. Thrombolysis time was higher in VCL pretreated than in control experimental animals. Significantly shorter in the test animals, which indicates that pretreatment with VCL This suggests that t-PA-induced thrombolysis may be enhanced. But However, VCL administered after the formation of thrombus significantly caused thrombolysis by t-PA. Did not promote.   Coronary reocclusion has limited the effectiveness of thrombolytic therapy in patients with acute myocardial infarction. (11, 12, 29-31). In most clinical trials, to prevent reocclusion Adjuvant treatment with antiplatelet therapeutics (eg aspirin) has been adopted (3 2-33). In the study of the present invention, VCL and t-PA, or VCL and t- There is time between thrombolysis and coronary artery reocclusion when PA and heparin are administered. It was intentionally extended and in some cases prevented reocclusion. VCL is under the same conditions Was more effective than aspirin. These data show that VCL Useful as an adjunct to t-PA in future thrombolytic therapy for obstruction Suggests that To do.   Bleeding is a common complication of thrombolytic therapy. In the study of the present invention, V Treatment with a combination of CL with t-PA and heparin will lighten the area around the surgical incision site. There was moderate to moderate bleeding. In addition, VCL, aspirin, t-PA and hepa The phosphorus combination resulted in severe bleeding in some cases .   Therefore, blocking the platelet glycoprotein Ib receptor with VCL Would be effective in reducing thrombus formation in damaged coronary arteries. For delaying reocclusion of coronary arteries after thrombolysis, VCL showed t-P Comparable to aspirin as an adjunctive treatment for A and heparin, Better than that. In addition to t-PA and heparin, VCL and aspirin Treatment with phosphorus could completely prevent reocclusion.   Example 3:Synergy of GPIb binding domain polypeptide with aspirin   Effects of GPIb-binding domain polypeptides using a model of traumatic vascular injury Was studied. This model was basically described by Kelly et al. (34). In this model, 2 mm collagen coated polyteto A piece of Rafluoroethylene (e-PFTE) tubing is ces) was inserted into the chronic arteriovenous shunt of baboons. For baboons,¹¹¹In Self-labeled The native platelets were injected and then given one of the therapeutic agents under study. Special At a fixed time point, the amount of platelets deposited can be measured by a scintillation camera. Was measured using.   A series of studies in 3 laboratory animals have shown that GPIb binding domain polypeptides (VCL) alone and for the purpose of studying the action of VCL in the presence of aspirin It was conducted. The GPIb binding domain polypeptide was prepared as described in Example 1. Was prepared.   The first set of studies consisted of a single GPIb binding domain polypeptide in the model. It was about the effect of Germany. Criteria for this study are based on previously implemented investments. The lowest dose obtained in the dose response study, ie 1 mg / kg per injection With continuous infusion, it was 2 mg / kg / hr for 1 hour. As seen in Figure 13 In addition, tube occlusion with this dose was about 20 minutes in the control compared to about 20 minutes. The total delay was about 60 minutes.   The second set of studies measures the effect of aspirin alone in the model. Directed to. Three experimental animals were tested. 35 mg / kg of aspirin It was administered orally 2 hours before the study. All specimens occluded within 30 minutes of starting the study Occurred. Both qualitatively and quantitatively, the curves with aspirin are anticoagulant treated. It was found to be close to the control curve obtained with unpurified blood. Platelet counts were similar in both groups.   The final set of studies included GPI in the presence of aspirin. Studies of the activity of b-binding domain polypeptides are included. Research with 3 experimental animals Was done. Experimental animals were orally dosed with 35 mg / kg aspirin 2 hours prior to study. Was given. The amount used to administer the GPIb binding domain polypeptide is one dose 1 mg / kg by injection and 2 mg / kg / hr by continuous infusion in 1 hour there were.   During continuous infusion of GPIb binding domain polypeptide, the device is all open The state was maintained. After that period begins to occlude. 80 minutes after the start of the study The device was occluded and four remained open.   An increase in platelet deposition rate was observed when continuous infusion was stopped. Thus Unexpectedly, GPIb binding domain polypeptides and aspyri Synergize with respect to delaying and / or preventing platelet deposition.   Phase of GPIb-binding domain polypeptide and aspirin in platelet deposition The multiplicative effect is the dose of GPIb binding domain polypeptide when administered alone. 4-fold, ie 4 mg / kg with a single injection and 8 mg / k with continuous infusion It was found to be equivalent to a dose of g / hr.   As an additional parameter, bleeding time was measured in the above experiment. That Is shown in Table 3. Bleeding time was determined by the lowest dose of GPIb binding domain polypeptide. 6 minutes to 22.5 minutes at the highest dose of GPIb binding domain polypeptide To increase in a dose-dependent manner. Bleeding time is 6 minutes with aspirin alone The result was obtained. Low dose of aspirin The amount of GPIb binding domain polypeptide combined increased slightly for up to 7 minutes. The result of addition was obtained. However, this combination resulted in a bleeding time of 16.5. 4-fold higher dose of GPIb binding domain polypeptide (1 dose Antiplatelet equivalent to 4 mg / kg per injection and 8 mg / kg / hr drip) Has a deposition effect. Thus, the GPIb binding domain polypeptide is linked to aspirin. Combined with a dramatic increase in efficacy without increasing bleeding time. Got the top.

─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. ⁶ Identification code Internal reference number FI // C12N 9/64 9455-4C A61K 37/54 15/09 ZNA 9162-4B C12N 15/00 ZNAA (C12P 21 / 02 C12R 1:19) (72) Inventor Panet, Amos Israel, Jerusalem, Harab Shrim Street 11

Claims (1)

[Claims]   1. A method for preventing complications after traumatic blood vessel injury in a patient, comprising: Predetermined amount of von Willebrand factor glycoprotein effective in cooperation to prevent the above-mentioned complications. A protein Ib binding domain polypeptide in combination with a predetermined amount of aspirin, A method comprising administering to said patient.   2. If the traumatic vascular injury is caused by coronary artery bypass surgery, angioplasty, thrombolysis The method according to claim 1, which is caused by unstable angina.   3. The complications after the traumatic blood vessel injury are myocardial infarction, ischemia, coronary artery bypass The method according to claim 1, wherein the surgery is repetitive angioplasty or death.   4. Effective dose is 0.1-20mg / kg by single injection and continuous infusion 0.1-20 mg / kg / hr vWF GPIb binding domain polypeptide according to And aspirin at 0.1-50 mg / kg.   5. Intravenous administration of the above-mentioned vWF / GPIb binding domain polypeptide The method according to claim 4.   6. The method according to claim 5, wherein the aspirin is administered orally or parenterally. Method.   7. The aspirin is administered as a single dose, multiple doses or continuous doses. The method according to claim 6, wherein   8. The parenteral administration may be intravenous, intraperitoneal, subcutaneous or intramuscular. The method according to claim 7, wherein the method is given.   9. A method of enhancing thrombolytic therapy in a patient, comprising: Combined with a thrombolytic agent and anticoagulant, a predetermined amount of flux effective to enhance thrombolytic therapy Von Willebrand Factor Platelet Glycoprotein Ib Binding Domain Polypeptide A method comprising administering to a patient.   10. 10. The method of claim 9, wherein the thrombolytic agent is tPA.   11. 11. The method of claim 10, wherein the anticoagulant is heparin.   12. 12. The thrombolytic therapeutic agent further comprises aspirin. The method described in.   13. Von Willebrand factor glycoprotein Ib-binding domain polypeptide 10. The method of claim 9, wherein the drug is administered intravenously.   14. 14. The method of claim 13, wherein the intravenous administration is an injection.   15. 14. The method of claim 13, wherein said intravenous administration is by continuous infusion.   16. The intravenous administration is performed as a single injection followed by continuous infusion. 13. The method according to 13.   17． The dose of the single injection is in the range of 0.4-40 mg / kg body weight. 15. The method according to claim 14, wherein   18. The single-injection dose is in the range of 1-20 mg / kg body weight. The method according to claim 17.   19. The contract for applying the single injection is in the range of 2-10 mg / kg body weight. The method according to claim 18.   20. 16. The infusion is at a rate of 0.2-20 mg / kg body weight per hour. The method described in.   21. 21. The method according to claim 20, wherein the infusion is at a rate of 1-10 mg / kg body weight per hour. How to list.   22. The dose of said single injection is 0.4-40 mg / kg body weight, and 18. The method according to claim 16, wherein the continuous infusion is 0.2-20 mg / kg body weight per hour. Law.   23. 14. The method of claim 13, wherein said polypeptide is administered prior to surgery. Law.   24. 24. The method of claim 23, wherein the surgery is cardiovascular surgery.