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ABSTRACT: Recently, several von Willebrand factor gene mutations resulting in type IIA von Willebrand's disease have been reported. We examined 8 patients from Sweden and Denmark with this phenotype and found two new candidate mutations and a hitherto unknown amino acid polymorphism. One patient had a de novo occurring mutation resulting in substitution of glycine for arginine 834. Previous reports have demonstrated conversion of arginine 834 to tryptophan or glutamine in IIA patients. A 2nd patient had a G(4825)-->A transition, substituting arginine for glycine 846. The transition produces a sequence congruent with that of the pseudogene but several lines of evidence indicate that a sequencing error due to influence by the latter could be excluded. The remaining 6 patients had one of the earlier described substitution mutations: Ser743-->Leu and Ile865-->Thr. In addition, two sequence variations not linked to the phenotype were found, namely Tyr821-->Cys and Val802-->Leu.
European Journal Of Haematology 07/1993; 51(1):38-44. · 2.61 Impact Factor
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European Journal Of Haematology 12/1992; 49(5):279. · 2.61 Impact Factor
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ABSTRACT: Type IIB of von Willebrand's disease (vWD) is a variant in which the structurally abnormal von Willebrand factor (vWF) shows an increased affinity for the platelet vWF receptor, glycoprotein Ib (GPIb). This may sometimes give rise to platelet aggregation and thrombocytopenia in vivo. In 20 patients from nine unrelated families with type IIB vWD from Denmark, Germany and Sweden we studied the molecular defect by amplification and direct sequencing of parts of exon 28 which encode for the vWF domain that interacts with platelet GPIb. Three different point mutations were identified one of which has not previously been reported. Fifteen patients from five families were heterozygous for the Arg543-->Trp substitution. The mutation had occurred independently in all five families and in two of them represented a de novo mutation. In one of these families the father, though asymptomatic and with normal laboratory test results, carried the mutation in heterozygous form. In three families, four affected members were found to be heterozygous for the Arg543-->Cys substitution. The mutations were of different origin at least in two of the families. The third substitution, Val551-->Leu, which has not previously been described, was found in one patient and was due to a de novo mutation. In most of the patients spontaneous thrombocytopenia had been recorded on at least one occasion. Five of the patients with the Arg543-->Trp substitution and the one with the Val555-->Leu substitution had all had bleeding associated with thrombocytopenia in the neonatal period of early infancy.
British Journal of Haematology 09/1992; 82(1):58-65. · 4.94 Impact Factor
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ABSTRACT: Type IIB is a special variant of von Willebrand's disease, characterized by an abnormal von Willebrand factor which shows an increased interaction with platelets. This interaction sometimes causes platelet aggregation and thrombocytopenia in vivo. It involves the glycoprotein-Ib (GPIb) receptor on platelets and corresponding GPIb-binding sites in the von Willebrand factor. We here demonstrate a C----T mutation at codon 1308 of the von Willebrand factor gene in 2 related patients with IIB von Willebrand's disease. The transition gives rise to a substitution of arginine by cysteine at position 545 of the mature von Willebrand factor subunit. This position is close to the GPIb- as well as the collagen- and heparin-binding domains of the von Willebrand factor. The mutation may change the conformation of the molecule in this region and activate the GPIb-binding domain, which is normally not exposed in the von Willebrand factor of circulating blood.
European Journal Of Haematology 12/1991; 47(5):342-5. · 2.61 Impact Factor
