Glanzmann thrombasthenia is an autosomal recessive bleeding disorder caused by mutations in the genes encoding platelet GPIIb or GPIIIa. Both genes map to chromosome 17q21 and polymorphisms within this chromosomal region have been identified. In the current study, prenatal diagnosis was performed for a family that already had one affected child, patient 1, who had a compound heterozygous mutation in GPIIb. At the time of prenatal diagnosis, the maternal GPIIb mutation had been identified but the paternal GPIIb mutation was unknown. By sequence analysis, the fetus was identified as a carrier of the mother's mutation. To determine the probability of the fetus inheriting the father's mutation, haplotype analysis of DNA samples from the fetus, mother, father and affected child were performed using polymorphic markers on chromosome 17q12‐q21. These markers included polymorphisms within the thyroid hormone receptor α1 gene (THRA1), the breast cancer gene (BRCA1), GPIIb, GPIIIa, and an anonymous marker D17S579. Heterozygosity within the THRA1, BRCA1 and GPIIIa polymorphic markers predicted that the fetus carried the father's normal allele. Based on genetic linkage studies, no recombination was identified with any of the informative markers, and from the map distance between GPIIb and BRCA1 the accuracy of diagnosis was predicted to be >98%. The father's mutation was subsequently identified and direct sequence analysis of fetal DNA confirmed that the fetus did not inherit the fathers' mutant allele.
A 20-year-old woman from a consanguineous family in the Hunan Province of the People's Republic of China was diagnosed as having Glanzmann's thrombasthenia based on (1) nearly a lifelong history of epistaxis, gum bleeding, petechiae, and purpura; (2) severe menorrhagia resulting in anemia and need for whole-blood transfusion; (3) normal coagulation assays; (4) prolonged bleeding time; (5) absent clot retraction; (6) decreased glass bead retention; (7) absent platelet aggregation in response to adenine diphosphate, epinephrine, and collagen; and (8) normal initial slope of platelet aggregation in response to ristocetin, but with a diminished maximal extent. The patient's platelets had a decreased level of platelet fibrinogen, but the deficiency was not as severe as in other Glanzmann's thrombasthenia patients. As judged by monoclonal antibody binding studies, surface glycoprotein (GP) IIb/IIIa (alpha IIb beta 3) expression was less than 15% of normal and alpha v beta 3 vitronectin receptor expression was 15% to 19% of normal, suggesting that the defect was in GPIIIa (beta 3). Immunoblotting of platelet lysates demonstrated decreased levels of GPIIb (approximately 30% to 35% of normal) and GPIIIa (approximately 10% of normal), and the GPIIb had undergone normal maturational processing into GPIIb heavy and light chains. Sequence analysis of the patient's GPIIIa RNA identified a G to A mutation at nucleotide 1219, predicting a Cys to Tyr substitution at residue 374. The patient's parents, who are first cousins, are asymptomatic and have only minor reductions in platelet aggregation. Direct sequencing of polymerase chain reaction-amplified cDNA and GPIIIa exon VIII indicated that the patient is homozygous and her parents are heterozygous for the mutation. Transient transfection studies in Chinese hamster ovary cells indicated that the mutation results in an 85% to 90% reduction in GPIIb/IIIa surface expression, but these cells retain the ability to mediate adhesion to immobilized fibrinogen. The relative preservation of platelet fibrinogen despite the very low level of platelet surface GPIIb/IIIa expression in this patient raises some interesting questions regarding the mechanism of fibrinogen uptake and the pathophysiology of Glanzmann's thrombasthenia.
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