Ruan J, Peyruchaud O, Alberio L, Valles G, Clemetson K, Bourre F, Nurden A T
UMR 5533 CNRS, Hôpital Cardiologique, Pessac, France.
Br J Haematol. 1998 Sep;102(4):918-25. doi: 10.1046/j.1365-2141.1998.00852.x.
Glanzmann's thrombasthenia (GT) results from a qualitative or quantitative defect of GPIIb-IIIa complexes (integrin alphaIIbbeta3). the fibrinogen receptor on platelets. This integrin plays a critical role in platelet aggregation. In this report we describe the molecular abnormalities of a patient with clinical and laboratory findings typical of type I Glanzmann's thrombasthenia. SDS-PAGE with Western blotting revealed an absence of GPIIb but small amounts of normally migrating GPIIIa in his platelets. A non-radioactive PCR-SSCP procedure and direct sequence analysis of PCR-amplified DNA fragments showed the patient to be a compound heterozygote for mutations in the GPIIb gene. A single point mutation (G to A) at nucleotide 1064 of the cDNA derived from the mother's allele led to a Glu324 to Lys amino acid substitution in GPIIb. It was responsible for a MscI restriction site in exon 12 of the GPIIb gene. This amino acid substitution changes the electric charge between the second and third Ca++-binding domains of GPIIb. The second mutation was inherited from his father and is in exon 18 of the GPIIb gene. It was a T --> C base transition at position 1787 of GPIIb cDNA and results in a Ile565 to Thr substitution. The two GPIIb mutations identified in this study will provide new information on GPIIb-IIIa structure and biosynthesis.
血小板无力症(GT)是由血小板纤维蛋白原受体GPIIb-IIIa复合物(整合素αIIbβ3)的定性或定量缺陷引起的。这种整合素在血小板聚集中起关键作用。在本报告中,我们描述了一名具有典型I型血小板无力症临床和实验室检查结果患者的分子异常情况。SDS-PAGE与蛋白质免疫印迹法显示其血小板中缺乏GPIIb,但有少量正常迁移的GPIIIa。一种非放射性PCR-SSCP方法及对PCR扩增DNA片段的直接序列分析表明,该患者是GPIIb基因突变的复合杂合子。来自母亲等位基因的cDNA在核苷酸1064处的单点突变(G到A)导致GPIIb中谷氨酸324被赖氨酸取代。这导致了GPIIb基因第12外显子中的一个MscI限制性位点。这种氨基酸取代改变了GPIIb第二个和第三个钙离子结合结构域之间的电荷。第二个突变来自他的父亲,位于GPIIb基因的第18外显子。它是GPIIb cDNA第1787位的T→C碱基转换,导致异亮氨酸565被苏氨酸取代。本研究中鉴定出的两个GPIIb突变将为GPIIb-IIIa的结构和生物合成提供新信息。
