Bernard-Soulier综合征的分子缺陷:受体基因、转录本和蛋白质的评估。

G J Roth
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引用次数: 0

摘要

Bernard-Soulier综合征涉及人血小板表面的多组分粘附受体。这种疾病的患者从皮肤和粘膜大量出血;在某些情况下,出血是致命的。在分子水平上,Bernard-Soulier缺陷影响动脉循环中介导血小板粘附的受体的结构和/或功能。这种受体被称为糖蛋白(GP) Ib- ix - v,由4种不同的多肽(GP: Ib α -143 kDa, Ib β -22 kDa, IX-20 kDa, V-83 kDa)组成,它们具有物理关联和富含亮氨酸的糖蛋白(LRG)重复序列等特征。所有4个基因和cdna现在已经被克隆和鉴定,并且基因已经定位到不同的染色体位点。许多Bernard-Soulier综合征已经在分子遗传水平上被定义;在大多数情况下,这种缺陷被证明是GP Ib α或GP IX基因的点突变。对遗传缺陷的研究为受体的表达和功能提供了新的认识。表达需要协同合成的Ib-IX多肽与GPV的贡献。受体的功能涉及人工循环中血流所产生的剪切力的影响。目前该领域的挑战是了解受体及其同源黏附配体——血管性血友病因子(vWf)的结构-功能关系。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Molecular defects in the Bernard-Soulier syndrome: assessment of receptor genes, transcripts and proteins.

Bernard-Soulier syndrome involves a multicomponent adhesion receptor on the surface of human platelets. Patients with this disorder bleed excessively from the skin and mucous membranes; and in occasional cases, the bleeding is fatal. At a molecular level, the Bernard-Soulier defect affects the structure and/or function of a receptor that mediates platelet adhesion in the arterial circulation. This receptor, termed glycoprotein (GP) Ib-IX-V, consists of 4 distinct polypeptides (GPs: Ib alpha-143 kDa, Ib beta-22 kDa, IX-20 kDa, V-83 kDa) that share features such as physical associations and leucine-rich glycoprotein (LRG) repeats. All 4 genes and cDNAs have now been cloned and characterized, and the genes have been localized to distinct chromosomal sites. A number of Bernard-Soulier syndrome kindreds have been defined at the molecular genetic level; and in most instances, the defect proved to be a point mutation in either the GP Ib alpha or the GP IX gene. Study of the genetic defects provides insight into both the expression and the function of the receptor. Expression requires the co-ordinated synthesis of the Ib-IX polypeptides with a contribution from GPV. Function of the receptor entails the effect of shear forces generated by blood flow in the artificial circulation. The current challenge in this field is to understand the structure-function relationships within the receptor and its cognate adhesive ligand, von Willebrand factor (vWf).

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