组织型纤溶酶原激活剂的缺失会导致多种发育异常。

IF 4.1 Q1 CLINICAL NEUROLOGY Brain communications Pub Date : 2024-11-16 eCollection Date: 2024-01-01 DOI:10.1093/braincomms/fcae408
Kevin Uguen, Tanja Frey, Osama Muthaffar, Jean-Claude Décarie, Najim Ameziane, Sarah Boissel, Yalda Baradaran-Heravi, Anita Rauch, Gabriela Oprea, Aboulfazl Rad, Katharina Steindl, Jacques L Michaud
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引用次数: 0

摘要

脑积水和丹迪-沃克畸形是最常见的先天性脑畸形之一。我们发现了三个同时患有梗阻性脑积水和丹迪-沃克畸形的近亲家族。为了了解这些异常的分子基础,我们对这些家族进行了全基因组测序。我们在四个受影响的家族成员中发现了 PLAT 基因中的三个同源截短变体。他们均表现为四室性脑积水。其中两人的脑积水可能是由于第四脑室下部的一层膜造成的。三个病例表现为丹迪-沃克畸形,而年龄最大的两个病例则表现为智力障碍。PLAT 编码组织型纤溶酶原激活剂,这是一种丝氨酸蛋白酶,其主要功能是裂解纤溶酶原产生活性纤溶酶。有趣的是,纤溶酶原缺乏症也被证明会导致梗阻性脑积水和丹迪-沃克畸形,这表明 PLAT 的缺失会通过破坏纤溶酶原的产生而导致这些缺陷。总之,我们描述了一种隐性疾病,其特征是 PLAT 功能缺失变异个体会出现梗阻性脑积水、Dandy-Walker畸形和智力障碍。这一发现进一步证实了纤溶酶原途径参与了这些发育障碍的发病机制。
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Loss of tissue-type plasminogen activator causes multiple developmental anomalies.

Hydrocephalus and Dandy-Walker malformation are amongst the most common congenital brain anomalies. We identified three consanguineous families with both obstructive hydrocephalus and Dandy-Walker malformation. To understand the molecular basis of these anomalies, we conducted genome-wide sequencing in these families. We identified three homozygous truncating variants in the PLAT gene in the four affected family members. All of them showed tetraventricular hydrocephalus. In two individuals, a membrane at the inferior aspect of the fourth ventricle was likely the cause of their hydrocephalus. Three cases exhibited Dandy-Walker malformation, whereas the two oldest individuals displayed intellectual disability. PLAT encodes the tissue-type plasminogen activator, a serine protease whose main function is to cleave the proenzyme plasminogen to produce active plasmin. Interestingly, plasminogen deficiency has also been shown to cause obstructive hydrocephalus and Dandy-Walker malformation, suggesting that loss of PLAT causes these defects by disrupting plasmin production. In summary, we describe a recessive disorder characterized by obstructive hydrocephalus, Dandy-Walker malformation and intellectual disability in individuals with loss-of-function variants in PLAT. This discovery further strengthens the involvement of the plasminogen pathway in the pathogenesis of these developmental disorders.

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