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一种具有异常行为的 A386G 双等位基因 GPIbα基因突变:伯纳德-苏利耶综合征发病机制的新机制。

A A386G biallelic GPIbα gene mutation with anomalous behavior: a new mechanism suggested for Bernard-Soulier syndrome pathogenesis.

机构信息

Department of Medical and Surgical Sciences, University of Padua Medical School, Padova, Italy.

出版信息

Haematologica. 2011 Dec;96(12):1878-82. doi: 10.3324/haematol.2010.039008. Epub 2011 Oct 11.

DOI:10.3324/haematol.2010.039008
PMID:21993687
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3232274/
Abstract

Platelet glycoprotein GPIbα mutations are the basic defect behind Bernard-Soulier syndrome, a rare inherited macrothrombocytopenia characterized by anomalies of the GPIbα, GPIbβ and GPIX subunits of von Willebrand factor receptor. A 32-year old man was investigated for suspected Bernard-Soulier syndrome. Ristocetin induced agglutination was absent. Flow cytometry and Western blot analysis showed a severe reduction in GPIbα, but sequencing revealed only a biallelic c.386A>G substitution, theoretically leading to a p.Asn110Glu variation. To further clarify the data, megakaryocyte cultures were set. Though the maturation of megakaryocytes was normal, proplatelet formation was defective and GPIbα mRNA was not detectable. GPIX protein was slightly reduced and GPIbβ polypeptide almost absent. Computational analysis showed that the c.386A>G mutation disrupted an exon splicing enhancer motif involved in the proper maturation of the GPIbα transcript. The c.386A>G mutation suggests a unique mutational mechanism causing the virtual absence of GPIbα without creating a stop codon.

摘要

血小板糖蛋白 GPIbα 突变是伯纳德-苏利耶综合征(一种罕见的遗传性巨血小板减少症)的根本缺陷,其特征是血管性血友病因子受体的 GPIbα、GPIbβ 和 GPIX 亚基异常。一名 32 岁男性因疑似伯纳德-苏利耶综合征接受检查。瑞斯托霉素诱导的聚集不存在。流式细胞术和 Western blot 分析显示 GPIbα 严重减少,但测序仅显示理论上导致 p.Asn110Glu 变异的双等位基因 c.386A>G 取代。为了进一步阐明数据,建立了巨核细胞培养。尽管巨核细胞的成熟正常,但原血小板形成有缺陷,并且无法检测到 GPIbα mRNA。GPIX 蛋白略有减少,GPIbβ 多肽几乎不存在。计算分析表明,c.386A>G 突变破坏了一个外显子剪接增强子基序,该基序参与 GPIbα 转录物的正确成熟。c.386A>G 突变提示一种独特的突变机制,导致 GPIbα 几乎不存在而不产生终止密码子。

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