alpha-chymotrypsin and Hemophilia-A

Hemophilia Bm is characterized by a strikingly prolonged plasma ox brain prothrombin time. In an attempt to find an explanation for this phenomenon we have analyzed various aspects of the Bm variants factor IX Deventer, factor IX Milano, factor IX Novara, and factor IX Bergamo. Proteolytic cleavage by factor XIa was normal in two Bm variants, but absent at the Arg180-Val bond in the other two. In the latter variants Arg180 was replaced by either Trp or Gln, whereas Val181----Phe and Pro368----Thr replacements have occurred in the variants that were normally cleaved by factor XIa. In all four variants the Bm effect could be neutralized with a single monoclonal antibody against factor IX. Also, after treatment with factor XIa, none of the Bm variants reacted with antithrombin III (in contrast to normal factor IXa). Purified factor IX Deventer (one of the variants with a replacement of Arg181), either with or without pretreatment with factor XIa, was found to be a more effective competitive inhibitor of the factor VIIa-tissue factor-induced factor X activation than similarly treated normal factor IX. In addition, this inhibitory effect was much more pronounced when bovine tissue factor was used instead of human tissue factor. We propose that the normal activation of factor IX not only produces a conformational change around the active site serine that allows efficient substrate binding and catalysis, but that the same conformational change is instrumental in effectively dissociating factor IXa from the activating factor VIIa-tissue factor complex. Amino acid replacements that disrupt this conformational transition directly (e.g. Pro368----Thr near the catalytic center) or indirectly (mutations at the Arg180-Val activation site) therefore lead to a combination of 1) the loss of coagulant activity and 2) an inhibitory effect in the ox brain prothrombin time assay.

Topics: Amino Acid Sequence; Antibodies, Monoclonal; Arginine; Binding Sites; Binding, Competitive; Chymotrypsin; DNA Restriction Enzymes; Factor IX; Factor VIIa; Factor X; Factor XIa; Hemophilia A; Humans; Molecular Sequence Data; Molecular Weight; Mutation; Protein Conformation; Prothrombin Time; Thromboplastin; Valine

The Factor VIII/von Willebrand factor protein was characterized in two unrelated patients with von Willebrand's disease in whom procoagulant and Factor VIII/von Willebrand factor antigen levels were normal. In both patients evidence of an abnormal protein was observed on crossed antigen-antibody electrophoresis. In one patient the Factor VIII/von Willebrand factor protein eluted from Sepharose 4B in a position and distribution identical to normal with normal levels of procoagulant activity and antigen. However, the partially purified Factor VIII/von Willebrand factor protein had markedly reduced von Willebrand factor activity in a ristocetin assay. In the second patient the peak of Factor VIII/von Willebrand factor protein, antigen, and procoagulant activity eluted from a Sepharose 4B column with an estimated molecular weight of approximately half that of normal. This protein had no von Willebrand factor activity. In both patients the reduced Factor VIII/von Willebrand factor protein subunit was indistinguishable from normal on polyacrylamide gel electrophoresis. These studies indicate that in some patients with von Willebrand's disease there is a qualitative defect of the Factor VII/von Willebrand factor protein; the total amount of protein, antigen, and procoagulant activity are normal while the von Willebrand factor activity is deficient.

Topics: Antibodies; Antigens; Blood Coagulation Tests; Chemical Precipitation; Chromatography, Gel; Chymotrypsin; Coagulation Protein Disorders; Counterimmunoelectrophoresis; Electrophoresis, Polyacrylamide Gel; Female; Fibrinogen; Hemophilia A; Humans; Male; Platelet Adhesiveness; Platelet Aggregation; Ristocetin; von Willebrand Diseases

A bleeding diathesis is described which is phenotypically indistinguishable from hemophilia A and which has been transmitted as a dominant trait in three generations of women in a North Carolina kindred. The abnormal phenotype is characterized by clinical mildness and slightly abnormal clotting time, prothrombin consumption, and partial thromboplastin time. Bleeding time, platelet count, clot retraction, tourniquet test, and prothrombin time are normal. Concentration of factors I, II, V, VII, IX, X, and XII are normal, while factor VIII activity is reduced to 2%-5% of control values. De novo synthesis of factor VIII does not occur after transfusion; factor VIII-related antigen is normal; patients' plasmas aggregate platelets normally in the presence of ristocetin, and a typical protein pattern is seen when a chymotryptic digest of cryoprecipitate of the proband is examined by SDS-polyacrylamide gel electrophoresis. Six possible genetic explanations are entertained. Balanced X-autosomal translocation of hemophilia A heterozygotes has been excluded by cytogenetic analysis of metaphase chromosomes. Classes von Willebrand's disease (vWd) is probably excluded on the basis of the laboratory data, and extreme lyonization of hemophilia A heterozygotes on probabilistic grounds. The genetic possibilities which cannot be excluded include a previously unrecognized variant mutation at the vWd locus, a dominant mutation at the hemophilia A locus on the X chromosome, and dominant mutation at a hypothetical fourth locus involved in factor VIII synthesis and control.

Topics: Animals; Blood Coagulation Tests; Blood Transfusion; Cells, Cultured; Chromatography, Gel; Chymotrypsin; Electrophoresis, Polyacrylamide Gel; Factor VIII; Female; Genes, Dominant; Hematuria; Hemophilia A; Humans; Immune Sera; Karyotyping; Lymphocytes; Pedigree; Phenotype; Plasmapheresis; Platelet Aggregation; Rabbits; Radioimmunoassay; Ristocetin

Topics: Animals; Aprotinin; Blood Coagulation; Cattle; Chemical Phenomena; Chemistry; Chymotrypsin; Dogs; Guinea Pigs; Hemophilia A; Hemophilia B; Humans; Male; Mammals; Mice; Pancreas; Resins, Plant; Seminal Vesicles; Submandibular Gland; Swine; Trypsin; Trypsin Inhibitors