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由于第25外显子的异常剪接,导致糖蛋白IIb中出现21个氨基酸缺失(Leu817 - Gln837)的Glanzmann血小板无力症。

Glanzmann thrombasthenia associated with a 21-amino acid deletion (Leu817-Gln837) in glycoprotein IIb due to abnormal splicing in exon 25.

作者信息

Fujimoto Tetsuro-Takahiro, Sora Mihoko, Ide Kazuko, Mizushima Miyoko, Mita Masashi, Nishimura Shinichiro, Ueda Kazuhiro, Fujimura Kingo

机构信息

Department of Hematology and Oncology, Division of Clinical Pharmacotherapeutics Program for Applied Biomedicine, Hiroshima University, Kasumi, Minami-Ku, Hiroshima, Japan.

出版信息

Int J Hematol. 2004 Jul;80(1):83-90. doi: 10.1532/ijh97.04001.

Abstract

We report a novel genetic defect in a Japanese patient with type I Glanzmann thrombasthenia. The glycoprotein (GP) Ilb complementary DNA (cDNA) from platelet messenger RNA had a 63-base pair deletion in the 5' boundary of exon 25, resulting in an in-frame deletion of 21 amino acid residues (Leu817-Gln837) in the calf-2 domain. The deleted region was present in the genomic DNA, but the splice acceptor site (AG) of exon 25 was mutated to AC, leading to the use of an AG sequence in the middle of exon 25 as an abnormal cryptic splice acceptor site. The effect of this deletion on protein synthesis was further analyzed. Mutant GPIIb-IIIa complexes were not detected on the surfaces of cells cotransfected with cDNAs of mutant GPIIb and normal GPIIIa. Mutant pro-GPIIb was detected in cell lysates and was coimmunoprecipitated with an anti-GPIIb-IIIa complex antibody. Immunostaining demonstrated that the mutant pro-GPIIb colocalized with an endoplasmic reticulum protein, calnexin, within the cells. These results indicate that complex formation was not completely prevented and that impairment of the subsequent transport was the major reason for the defect in cell surface expression. The data suggest that the GPIIb calf-2 domain is important for intracellular transport of GPIIIb-IIIa complexes.

摘要

我们报告了一名患有I型Glanzmann血小板无力症的日本患者存在一种新的基因缺陷。来自血小板信使RNA的糖蛋白(GP)IIb互补DNA(cDNA)在第25外显子的5'边界处有一个63个碱基对的缺失,导致在小腿-2结构域中21个氨基酸残基(Leu817-Gln837)发生框内缺失。该缺失区域存在于基因组DNA中,但第25外显子的剪接受体位点(AG)突变为AC,导致使用第25外显子中间的一个AG序列作为异常的隐蔽剪接受体位点。进一步分析了这种缺失对蛋白质合成的影响。在用突变型GPIIb和正常GPIIIa的cDNA共转染的细胞表面未检测到突变型GPIIb-IIIa复合物。在细胞裂解物中检测到突变型前体GPIIb,并且它与抗GPIIb-IIIa复合物抗体共免疫沉淀。免疫染色表明,突变型前体GPIIb在细胞内与一种内质网蛋白钙连接蛋白共定位。这些结果表明,复合物的形成并未被完全阻止,随后转运的受损是细胞表面表达缺陷的主要原因。数据表明GPIIb小腿-2结构域对GPIIb-IIIa复合物的细胞内转运很重要。

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