Absence of incorporation of plasma von Willebrand factor into porcine platelet a-granules

Summary. In order to study the relationship between plasma and platelet von Willebrand factor (vWF), we used an experimental model of crossed bone marrow transplantation (BMT) between SLA immunocompatible normal and homozygous von Willebrand (vWD) pigs. A normal pig received bone marrow from a vWD pig and a second pig with vWD was engrafted with marrow from a normal pig.
Each recipient, after total irradiation of 10 Grays, received by a central catheter 10¹⁰ monocellular bone marrow cells without immunosuppression. The animals were followed for 50 d and no graft rejection or graft-versus-host disease was observed. After aplasia occurring 3 weeks after BMT, white blood cells and platelets returned to normal.
Before transplantation, in the vWD pig, vWFAg and vWF activity were not detected in plasma and in platelet and megakaryocyte a-granules. After transplantation with normal marrow, platelet vWFAg and platelet vWF activity were normal and high molecular weight multimers and numerous tubular structures were present in a-granules.
Before transplantation, the normal pig had normal plasma and platelet vWFAg-vWF activity, normal multimeric pattern, and the platelet and megakaryocyte a-granules displayed many tubular structures, eccentrically located in one of their poles, coinciding with immunogold staining vWFAg. After transplantation with homozygous vWD marrow, platelet and megakaryocyte a-granules lacked tubular structures. Alpha-granule immunogold staining for vWF was consistently negative, although plasma vWF was at a normal level. In conclusion, this study shows that, unlike other plasma proteins such as fibrinogen, vWF endocytosis does not occur from plasma to the platelet a -granules. Platelet and megakaryocyte vWF solely originates from megakaryocyte endogenous synthesis and is independent of plasma vWF.     

Comparison of the in vitro characteristics of von Willebrand factor in British and commercial factor VIII concentrates

Qualitative/quantitative analysis of von Willebrand factor antigen (vWf:Ag) in either heat or solvent/detergent treated factor VIII concentrates, used for haemophilia replacement therapy, was undertaken to assess their suitability for the treatment of vWD. For the first time immunoaffinity purified vWf:Ag (Monoclate by-product) was also evaluated by in vitro assessment. Potencies of vWf:Ag varied considerably but were consistently higher (28.9-420.5 iu/ml) than factor VIII:C (one-stage) activity (8.13-42.44 iu/ml). The functional activity of vWf was assessed by either Ristocetin Cofactor (vWf:RCo) or collagen binding methods (vWf:CBA) with typical vWf:RCo/vWf:Ag ratios ranging from 0.08 to 0.94. Multimeric analysis confirmed that in vitro biological activity was dependent on the presence of the high molecular weight forms of vWf:Ag. A significant correlation (r = 0.95) between vWf:RCo activity and collagen binding was observed in all of the concentrates with the exception of the immunopurified product. The data suggest that either NHS 8Y (mean vWfRCo/vWf:Ag = 0.94), Haemate P (mean vWf:RCo/vWf:Ag = 0.69) and high purity Octapharma V.I (vWf:RCo/vWf:Ag = 0.82) which contain medium/high MW vWf:Ag multimers are likely to be most cost-effective in the treatment of symptomatic severe vWD patients than other currently available concentrates.     

Analysis of platelet von Willebrand factor antigen

Platelet lysates were obtained from suspensions of normal washed platelets by freeze-thawing or Triton X-100 lysis. The resultant platelet lysates contained 0.34 +/- 0.15 U/10(9) platelets (n = 8) of von Willebrand factor antigen (vWf:Ag) as determined by radioelectroimmunoassay using a monospecific antibody to vWf:Ag. The vWf:Ag level was higher in platelet lysates prepared from freshly drawn blood than from outdated platelet packs. Platelet lysates from patients with severe von Willebrand's disease type I (n = 2) did not contain detectable vWf:Ag. When normal platelet lysates were analyzed by radiocrossed immunoelectrophoresis in agarose using a monospecific polyclonal antibody to plasma vWf:Ag, two immunochemically identical precipitin peaks were seen. One of the platelet vWf:Ag peaks corresponded in its electrophoretic mobility to plasma vWf:Ag, while the other peak, i.e. platelet vWf:Ag-peak II, migrated to a more anodal position. The presence of the platelet vWf:Ag-peak II suggests structural differences between plasma and platelet vWf:Ag and illustrates previously unrecognized heterogeneity of platelet vWf:Ag.     

Heat-treated factor VIII/von Willebrand factor concentrate in platelet-type von Willebrand's disease

Cryoprecipitate has proved to correct the hemostatic defects in von Willebrand's disease (vWD) and platelet-type vWD. However, recent studies have revealed that transmission of the AIDS retrovirus (HIV) occurs through exposure to blood products including cryoprecipitate. Treatment with heat-treated factor VIII/von Willebrand factor (vWf) concentrates may have certain advantages over treatment with nonheated products, if these preparations are efficacious in these disorders. We found that a commercially available factor VIII/vWf concentrate, Haemate P, contained the high-molecular-weight multimers of vWf and had a ratio of ristocetin cofactor (RCof) to vWf antigen (vWf:Ag) close to unity. In addition, its capacity to directly induce aggregation of platelet-type vWD platelets in vitro was similar to that for cryoprecipitate. When infused into a patient with platelet-type vWD, Haemate P shortened the prolonged bleeding time and caused spontaneous platelet aggregation in vitro with a mild diminution of platelet count. These results indicate that some of the heat-treated factor VIII/vWf concentrates may provide a safer, yet still effective, treatment for platelet-type vWD.     

Clinical and laboratory evaluation of National Health Service factor VIII concentrate (8Y) for the treatment of von Willebrand''s disease

This study was carried out to assess the efficacy of NHS 8Y concentrate in the treatment of patients with von Willebrand's disease (vWD). Eight patients (two type I vWD, one type IIA vWD, two type IIB vWD, and three type III vWD) were treated on a total of 10 occasions with 8Y. Following each treatment episode there was a temporary correction of patients' bleeding time (BT) measurements. Other laboratory parameters--von Willebrand factor ristocetin cofactor activity (vWf:RiCo), vWf antigen (vWf:Ag) levels, and factor VIII coagulant activity (factor VIII:C)--were also corrected. Plasma vWf multimers temporarily reflected those present in the infused concentrate. An effective clinical response was observed in each case despite, as revealed by autoradiography and scanning densitometry of SDS-agarose electrophoresis gels, a reduction in the concentration of the largest vWf multimers in 8Y compared with normal plasma. Overall, the clinical effectiveness of 8Y in vWD was comparable to that seen with cryoprecipitate. We conclude that NHS 8Y concentrate may be used as an alternative to cryoprecipitate for the treatment of vWD.     

Absence of tubular structures and immunolabeling for von Willebrand factor in the platelet alpha-granules from porcine von Willebrand disease [published erratum appears in Blood 1987 Feb;69(2):707]

The electron microscopic localization of von Willebrand factor (vWF) was studied in platelets from normal and von Willebrand disease (vWD) pigs. In normal pig platelets, immunolabeling for vWF was far more intense and extensive than in human platelets and was either localized at one pole of the alpha-granule or all along its periphery or long axis. As in human platelets, this immunolabeling coincided with the presence of tubules about 200 nm in diameter. These structures were more numerous than in human platelets, with up to 30 tubules per alpha- granule. They were easily identified either in transverse sections, usually grouped in a less electron-dense part of the matrix at one pole of the alpha-granule, or in longitudinal sections parallel to the long axis of the elongated granules, or coiled around the alpha-granule core. They closely resemble those structures found in Weibel-Palade bodies. In platelets from pigs with severe vWD, these structures were absent, as was the immunolabeling for vWF; however, cytoplasmic microtubules were normally present in these platelets. Thus, the granule-associated tubules can be distinguished from the microtubules, which are larger in diameter (250 nm), are present in both normal and vWD platelets, and do not stain for vWF. These results strongly suggest that the tubular structures present in the alpha-granules of normal porcine platelets correspond to the vWF molecule itself.     

The roles of von Willebrand factor and factor VIII in arterial thrombosis: studies in canine von Willebrand disease and hemophilia A

We have studied the roles of von Willebrand factor (vWF) and factor VIII in arterial thrombosis in four canine phenotypes: normal (n = 6), hemophilia A (n = 11), von Willebrand disease (vWD) (n = 9), and hemophilia A/vWD (n = 1). vWF activity was determined by botrocetin- induced agglutination of fixed human platelets and vWF antigen (vWF:Ag) by Laurell electroimmunoassay and crossed immunoelectrophoresis. Plasma from normal dogs and those with hemophilia A had vWF activity, vWF:Ag, and a full range of vWF:Ag multimers on gel electrophoresis equivalent to normal canine plasma pool. Platelet cytosol contents were isolated by freezing and thawing, triton X-100 solubilization, or sonication of washed platelets with and without protease inhibitors and inhibitors of platelet activation. Washed platelets were also stimulated with calcium ionophore and MgCl2. There was no measurable vWF activity or vWF:Ag in platelet lysates or releasates in any dog regardless of phenotype. All dogs were studied using a standard arterial stenosis and injury procedure to induce arterial thrombosis. Thromboses were detected by cyclic reductions in Doppler blood flow velocity. Vessels were examined by light and scanning electron microscopy. Thrombosis developed in the arteries of normal (9 of 10) and hemophilia A dogs (16 of 16) but in none of the vWD dogs (0 of 10). Infusion of canine vWF cryoprecipitate into vWD dogs markedly shortened bleeding time but did not support thrombosis as seen in dogs with vWF in the plasma and subendothelium. Thrombosis, then, fails to occur when vWF is absent from the plasma and subendothelial compartments or present only in the plasma compartment. These data are consistent with the hypothesis that vWF in the plasma and subendothelium supports thrombosis. Neither plasma FVIII nor platelet vWF is essential for thrombosis in this model.     

Heterogeneity of type I von Willebrand disease: evidence for a subgroup with an abnormal von Willebrand factor

Type I von Willebrand disease (vWD) is characterized by equally low plasma concentrations of von Willebrand factor antigen (vWF:Ag) and ristocetin cofactor (RiCof) and by the presence of all vWF multimers in sodium dodecyl sulfate (SDS)-agarose gel electrophoresis. For 17 patients (13 kindreds) diagnosed with these criteria, we have studied the platelet contents of vWF:Ag and RiCof and the changes of these in plasma after DDAVP infusion. Platelet vWF:Ag and RiCof were normal in four kindreds (called "platelet normal" subgroup); following 1-deamino- 8-D-arginine vasopressin; plasma vWF:Ag, RiCof and the bleeding time (BT) became normal. In six kindreds, platelet vWF:Ag and RiCof were equally low (platelet low); after DDAVP, plasma vWF:Ag and RiCof remained low, and the BT was prolonged. In three additional kindreds, platelets contained normal concentrations of vWF:Ag, but RiCof was very low (platelet discordant); even though a complete set of multimers was found in plasma and platelets, there was a relatively small amount of large multimers. After DDAVP, plasma vWF:Ag became normal, but RiCof remained low and the BT was very prolonged. These findings demonstrated that there can be an abnormal vWF (RiCof less than vWF:Ag) even in type I vWD, coexisting with a complete set of vWF multimers (platelet discordant); that the abnormal vWF can be shown more clearly in platelets than in plasma or else in plasma after DDAVP infusion; and that DDAVP normalizes the BT only in those patients with normal platelet levels of both vWF:Ag and RiCof (platelet normal).     

von Willebrand factor released from Weibel-Palade bodies binds more avidly to extracellular matrix than that secreted constitutively

Large multimers of von Willebrand factor (vWf) are released from the Weibel-Palade bodies of cultured endothelial cells following treatment with a secretagogue (Sporn et al, Cell 46:185, 1986). These multimers were shown by immunofluorescent staining to bind more extensively to the extracellular matrix of human foreskin fibroblasts than constitutively secreted vWf, which is composed predominantly of dimeric molecules. Increased binding of A23187-released vWf was not due to another component present in the releasate, since releasate from which vWf was adsorbed, when added together with constitutively secreted vWf, did not promote binding. When iodinated plasma vWf was overlaid onto the fibroblasts, the large forms bound preferentially to the matrix. These results indicated that the enhanced binding of the vWf released from the Weibel-Palade bodies was likely due to its large multimeric size. It appears that multivalency is an important component of vWf interaction with the extracellular matrix, just as has been shown for vWf interaction with platelets. The pool of vWf contained within the Weibel-Palade bodies, therefore, is not only especially suited for platelet binding, but also for interaction with the extracellular matrix.     

Studies of the pathophysiology of acquired von Willebrand''s disease in seven patients with lymphoproliferative disorders or benign monoclonal gammopathies

In seven patients with acquired von Willebrand's disease (AvWD) associated with lymphoproliferative disorders or benign monoclonal gammopathies, the platelet contents of von Willebrand factor antigen and ristocetin cofactor (vWF:Ag and vWF:RiCof, respectively) were normal. All the multimers of vWF:Ag could be seen in the 1.6% SDS- agarose gel electrophoresis patterns of plasma and platelet lysates. Infusion of 1-deamino-8-D-arginine vasopressin (DDAVP) augmented plasma levels of vWF:Ag and vWF:RiCof of all patients and corrected prolonged bleeding times (BT). However, compared with patients with congenital vWD type I and comparable degrees of baseline abnormalities treated in the same way, vWF:Ag and vWF:RiCof were increased less and cleared more rapidly from plasma and the BT remained normal for a shorter period of time. These studies provide evidence that these AvWD patients have qualitatively normal vWF in plasma, but at lower concentrations, that vWF in platelets is normal both qualitatively and quantitatively, and that cellular vWF can be rapidly released into plasma by DDAVP to correct the hemostatic abnormalities. However, vWF is removed rapidly from plasma, making the correction more transient than in congenital vWD type I.     

Multimeric composition of plasma von Willebrand factor in chronic myeloproliferative disorders

Summary In chronic myeloproliferative disorders (CMPD) thrombohaemorrhagic complications occur occasionally in association with thrombocytosis. We studied the multimeric composition of plasma von Willebrand factor (vWf) in 15 patients with polycythaemia vera (PV), 12 with essential thrombocythaemia (ET) and eight with primary myelofibrosis (PMF). The relative content of large (multimer band ≥ 11) multimers calculated by densitometer scan following SDS-agarose gel electrophoresis was 18.5 ± 4.4% (mean±SD) in normal controls, 8.3 ± 7.9% in PV, 8.1 ± 4.6% in ET and 19.6 ± 6.7% in PMF. The patients with PV and ET but not PMF had a significantly lower percentage of large multimers than normal controls (P < 0.001). The relative content of large multimers was negatively correlated with WBC and platelet count (P < 0.02 each) in PV. It was negatively correlated with platelet count (P < 0.005) and was positively correlated with a ratio of ristocetin cofactor/vWf antigen (RCof/vWf: Ag)(P < 0.01) in ET. These results indicate that acquired defects of vWf are quite common in PV and ET but not in PMF. In addition, some CMPD patients with high platelet counts completely lacked large multimers. The negative correlation of the relative content of large multimers with platelet count suggests that large multimers may be preferentially consumed during thrombocytosis or degraded by protease(s) from increased blood cells.     

A probable double heterozygous type II von Willebrand's disease with increased ristocetin induced platelet aggregation.

We have identified a patient with von Willebrand's disease (vWD) resembling type IIB vWD, with increased ristocetin induced platelet aggregation (RIPA), the absence of the large multimers of von Willebrand factor (vWF) in plasma, and the presence of the large multimers in platelets in whom a family study indicated a probable double heterozygous inheritance pattern. The propositus was a 12-year-old boy with frequent epistaxis and bruising. Abnormal hemostatic findings included a prolonged bleeding time (BT), decreased levels of factor VIII coagulant activity (VIIIC), von Willebrand factor antigen (vWF:Ag), ristocetin cofactor (RCof), and an increased RIPA. In the presence of ristocetin, binding of the patient's plasma vWF to normal platelets was increased but binding of normal vWF to his platelets was normal. SDS-agarose gel (1.5%) electrophoresis revealed that plasma vWF lacked the large multimers, and 3.0% gel electrophoresis revealed that the multimers had a 5-band pattern similar to normal. The above findings were consistent with type IIB vWD, but 1-deamino[8-D-arginine]-vasopressin (DDAVP) infusion resulted in a shortened BT and the transient appearance of large multimers without a decrease in the platelet count. Family studies revealed that his mother has mild bleeding symptoms, decreased VIIIC, vWF:Ag, and RCof levels and normal to slightly reduced RIPA with a multimer pattern consistent with type I vWD. In contrast, the father, sister, and paternal grandfather were asymptomatic, with a slightly decreased VIIIC level but a normal BT and vWF:Ag and RCof levels. Their RIPA and vWF binding to normal platelets were increased, but unlike the propositus their plasma contained large multimers. We concluded that the propositus is a type IIB-like variant differing from previously reported IIB variants in two ways: 1) his response to DDAVP and 2) a possible double heterozygous mode of inheritance rather than the usual dominant route.     

PADGEM (GMP140) is a component of Weibel-Palade bodies of human endothelial cells

PADGEM protein (PADGEM), also known as GMP140, is a platelet alpha- granule membrane protein that is translocated to the external membrane after platelet activation. Although the biosynthesis of this protein was originally thought to be confined to megakaryocytes, the synthesis of PADGEM in endothelial cells was recently demonstrated (McEver et al: Blood 70:1974a, 1987). We now describe the subcellular localization of this protein in endothelial cells. Immunofluorescence staining of permeabilized human umbilical vein endothelial cells with KC4, a well characterized monoclonal antibody to PADGEM, showed positively stained elongated structures similar in distribution and shape to Weibel-Palade bodies. Their identity as Weibel-Palade bodies was confirmed by double label immunofluorescence using KC4 and a polyclonal antiserum to von Willebrand factor (vWf), a protein known to be specifically stored in these organelles. All Weibel-Palade bodies were found to contain PADGEM. In contrast to strong perinuclear staining produced with anti- vWf antibodies, no significant perinuclear staining was obtained with KC4, indicating that relatively little PADGEM is present in the endoplasmic reticulum and in the Golgi apparatus. In endothelial cells treated with secretagogues that stimulate vWf release the elongated structures positive for PADGEM disappeared, further identifying these structures as Weibel-Palade bodies. This observation extends the parallels between Weibel-Palade bodies and alpha-granules and suggests a possible functional association between vWf and PADGEM.     

Investigation of a large kindred with type IIB von Willebrand''s disease, dominant inheritance and age-dependent thrombocytopenia

Twenty-six members of four generations of one family in which a man was diagnosed in 1961 as having von Willebrand's disease (vWD) have been studied. Subtype IIB vWD and autosomal dominant inheritance was identified in 19 individuals with bleeding signs varying in severity and frequency. The absence of high molecular weight multimers of plasma von Willebrand factor (vWf) and the heightened interaction of plasma vWf with platelets in the presence of low ristocetin concentrations were consistent in all affected subjects. Nevertheless the degree of these abnormalities was variable without clearcut linkage to the severity of clinical symptoms. Thrombocytopenia was present only in the adult affected family members and the platelet count appeared to be age-dependent. The investigation of this family provides further evidence of the phenotypic variability in the vWf-platelet interactions within this vWD subtype.     

Thrombotic thrombocytopenic purpura which was effectively treated by plasma exchange therapy--involvement of vWF and endothelial cell injury

A 49-year-old man with a one-week history of general fatigue and several other symptoms, including hematuria, numbness of the mouth, anemia and thrombocytopenia, was admitted because of an episode of convulsions and unconsciousness after blood transfusion. A diagnosis of thrombotic thrombocytopenic purpura (TTP) was then made, and treatment with steroids, anti-platelet agents, transfusion of fresh frozen plasma was started. However, since no improvement was seen, on the third day of admission, treatment with plasma exchange was instituted (total plasma exchange volume was 18.1 iota), and his clinical and hematological conditions improved markedly. Since then, he has been in a remission state for about three years. Laboratory examinations during the acute phase showed increase of vWf: Ag, decrease of RCof/vWf: Ag, increase of vWf large multimers and a high endothelial cell injury activity by the patient's serum. In the next day following the plasma exchange therapy, RCof/vWf: Ag improved, but not to the normal range. One and a half years later, while in the remission phase, the vWf multimers and endothelial cell injury activity normalized. Thus, these findings show further evidence on the involvement of endothelial cell injury and vWf in the pathogenesis of TTP.     

Unique expression of von Willebrand factor by type IIA von Willebrand''s disease endothelial cells

Endothelial cells (EC) were cultured from the umbilical cord of a male neonate whose mother was previously diagnosed with type IIA von Willebrand's disease (vWd). The diagnosis of type IIA vWd in the proband was confirmed by low ristocetin activity and the absence of the highest molecular weight (MW) forms of von Willebrand factor (vWf) in his platelet poor plasma. The vWf of EC cultured from the neonate's umbilical cord differed from that of control EC and the cell line EA.hy926 in two respects. Firstly, the full range of molecular weight forms was present in the patient EC lysate and, secondly, vWf:Ag expression was approximately seven-fold greater than that of control cells. Platelet lysates prepared from other affected members of the type IIA vWd family in the presence or absence of proteolytic inhibitors demonstrated a near normal vWf multimeric distribution. Resistance of these high MW forms to heat degradation was conferred by the presence of proteolytic inhibitors. Moreover, the full plasma vWf multimeric distribution could not be restored by the inclusion of EDTA. N-ethylmaleimide and leupeptin in the anticoagulant during the rapid preparation of platelet poor plasma. These findings lend support to the heterogeneous nature of type IIA vWd and has possible implications in the understanding of the intracellular processes involved in the biosynthesis and storage of the vWf macromolecular complex as well as the pathogenesis of type IIA vWd.     

In vitro correction of the abnormal multimeric structure of von Willebrand factor in type IIa von Willebrand''s disease.

Type IIa von Willebrand's disease (vWd) has been characterized by the absence of the largest and a reduction in the intermediate-sized multimers of the plasma and platelet von Willebrand factor (vWf) and by the diminished response of the platelet-rich plasma of these patients to ristocetin. Other recently demonstrated abnormalities include the presence of an abnormal triplet structure of vWf. We have studied the plasma and platelets from three patients with this form of vWd and have found that both their plasma and platelets manifest the previously described abnormalities. Because of the heterogeneity of the multimeric structure of the vWf in these patients, we considered the possibility that postsynthetic events may have modified the vWf. When blood was collected in 5 mM EDTA or 5 mM EDTA/leupeptin/N-ethylmaleimide, the abnormal multimeric structure of the plasma and platelet vWf was partially normalized in that the intermediate and the largest vWf multimers were increased, the abnormal multimer structure was no longer as apparent, and the fastest migrating band (an abnormality seen only in the type IIa vWd plasma and platelets) disappeared. The enzymatic activity responsible for this degradation can be classified as a calcium-dependent protease. Studies of normal radiolabeled vWf incubated with platelet lysates from normal subjects and these patients revealed that the patients' platelets did not contain increased amounts of calcium-dependent protease activity as assessed by degradation of normal vWf. These data suggest that patients with type IIa vWd synthesize an abnormal vWf protein that is susceptible to in vitro proteolytic degradation and that proteolytic degradation can play a significant role in the phenotypic expression of vWd by modifying the plasma and platelet vWf multimeric structure.     

Replacement therapy in platelet-type von Willebrand disease

The response to infusions of cryoprecipitate and factor VIII concentrate was studied in a patient with platelet-type von Willebrand disease (vWD) who showed lack of the large multimers of von Willebrand factor in plasma, increased platelet aggregation with low concentrations of ristocetin, and in vitro platelet aggregation by normal plasma. The cryoprecipitate and factor VIII concentrate to be infused induced platelet aggregation when added to patient platelet-rich plasma at concentrations higher than 0.86 U/ml and 3 U/ml of factor VIII-related antigen (VIIIR:Ag), respectively. Administration of cryoprecipitate (41.9 U VIIIR:Ag/kg body weight) was followed by a shortening of the bleeding time, and hemostasis was achieved during tooth extractions. Factor VIII concentrate (70.2 U VIIIR:Ag/kg) failed to correct the prolonged bleeding time and proved ineffective to control the gum bleeding. No significant diminution of the platelet count was observed following any infusion. These results indicate that cryoprecipitate is hemostatically effective and safe when infused in such a dosage, but factor VIII concentrate is not effective in platelet-type vWD in analogy to what is observed in various types of vWD.     

New variant of von Willebrand disease type II with markedly increased levels of von Willebrand factor antigen and dominant mode of inheritance: von Willebrand disease type IIC Miami

A variant of von Willebrand disease (vWD) was identified in six members of a kindred spanning four generations. The proband was a 46-year-old woman with a lifelong history of bleeding, a prolonged bleeding time (> 15 minutes), markedly elevated von Willebrand factor (vWF) antigen (vWF:Ag = 2.09 U/mL), slightly reduced ristocetin cofactor activity, and a plasma vWF multimer pattern similar to that of vWD type IIC. Similar findings were observed in her three children, mother, and brother. In affected family members, platelet and plasma vWF multimer patterns were discrepant with higher molecular weight multimers observed in platelet vWF. Following a 1-Des-amino-8-D-arginine vasopressin (DDAVP) challenge, the proband failed to normalize her bleeding time even though vWF: Ag rose by 70% and higher molecular weight multimers were increased slightly. Genetic studies were consistent with autosomal dominant inheritance of a mutation within the vWF gene. By sequencing of cloned genomic DNA, mutations were excluded in exons 4, 5, 14, and 15, which encode regions of the vWF propeptide proposed to be important in multimer biosynthesis. Mutations also were excluded in exons 28 to 31, which encompass the known mutations that cause vWD types IIA, IIB, and B. This new variant of vWD, characterized by autosomal dominant inheritance, a qualitative defect that resembles vWD type IIC, and increased plasma vWF:Ag, was tentatively designated vWD type IIC Miami.     

Coagulation studies in thrombotic thrombocytopenic purpura, with special reference to von Willebrand factor and protein S

The profile of blood coagulation and fibrinolysis was studied in detail in eight patients with acute thrombotic thrombocytopenic purpura (TTP). In the majority of the patients, fibrinogen, factor XIII, antithrombin III, alpha 2-plasmin inhibitor, plasminogen, and alpha 2-macroglobulin were normal, whereas FDP, plasmin-alpha 2-plasmin inhibitor complex, and tissue-type plasminogen activator antigen were marginally or moderately elevated. Low fibronectin values were observed in four patients. Protein C and C4b-binding protein were nearly normal, whereas total protein S and free protein S were reduced in five and six patients, respectively. A positive correlation was found between total protein S and C4 and between free protein S and C3. von Willebrand factor antigen (vWf:Ag) and ristocetin cofactor (RCof) were either normal or elevated, but RCof/vWf:Ag ratio was decreased in seven patients. Crossed immunoelectrophoresis and sodium dodecyl sulfate (SDS)-agarose gel electrophoresis revealed that the large vWf multimers were either absent from or relatively decreased in all patients except one. In addition, one patient had unusually large vWf multimers, and a low-molecular-weight vWf fragment was apparently observed in three patients. These findings indicate that the intravascular generation of thrombin and plasmin was minimal in TTP and suggest that the alterations of the vWf molecule were caused not only by consumption through its participation in platelet thrombus formation but also by accelerated proteolysis. Low protein S values would be related to the immunological abnormalities underlying TTP.