遗传性血小板功能缺陷。

A. Nurden, P. Nurden
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引用次数: 51

摘要

遗传性血小板缺陷出血综合征的基础不同的严重程度。Bernard-Soulier综合征和Glanzmann血栓减少症是膜糖蛋白紊乱。在前者中,缺乏GPIb-IX-V复合物会导致血小板粘附缺陷,而在血栓减少中,缺乏整合素alphaIIbbeta3时不会发生血小板聚集。刺激主要受体的缺陷越来越多地被描述,包括一个新克隆的gi蛋白连接的缺陷,7跨膜结构域,ADP受体。这些导致血小板功能反应中激动剂特异性缺陷,血小板细胞内信号通路异常也是如此。影响致密体和α -颗粒分泌的缺陷,ATP的产生和促凝活性的产生,也会遇到。一些疾病是巨核细胞和血小板所独有的,而在其他疾病中,如Chediak-Higashi、Hermansky-Pudlak和Wiskott-Aldrich综合征;分子病变扩展到其他细胞类型。还应考虑影响血小板形态的疾病,即所谓的“巨血小板”综合征。在家族性血小板减少症中,血小板产生的数量不足以保证止血。血小板紊乱是罕见病的例子;尽管如此,它们为阐明血小板功能的分子基础提供了必要的信息。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Inherited defects of platelet function.
Inherited platelet defects bleeding syndromes underlie of varying severity. The Bernard-Soulier syndrome and Glanzmann thrombasthenia are disorders of membrane glycoproteins. In the former, a deficiency of the GPIb-IX-V complex leads to defective platelet adhesion, while in thrombasthenia, platelet aggregation does not occur in the absence of the integrin alphaIIbbeta3. Defects of primary receptors for stimuli are increasingly being described, and include a defect of a newly cloned Gi-protein-linked, seven transmembrane domain, ADP receptor. These lead to agonist-specific deficiencies in the platelet function response, as do abnormalities in the many intracellular signaling pathways of platelets. Defects affecting secretion from dense bodies and alpha-granules, of ATP production and generation of procoagulant activity, are also encountered. Some disorders are exclusive to megakaryocytes and platelets, while in others, such as the Chediak-Higashi, Hermansky-Pudlak and Wiskott-Aldrich syndromes; the molecular lesion extends to other cell types. Disorders affecting platelet morphology, the so-called "giant platelet" syndromes should also be considered. In familial thrombocytopenias, platelets are produced in insufficient quantities to assure hemostasis. Platelet disorders are examples of rare diseases; nevertheless they have provided essential information in the elucidation of the molecular basis of platelet function.
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