SNX14基因的双等位基因突变会导致一种伴有综合征的小脑萎缩和溶酶体-自噬体功能障碍。

Biallelic mutations in SNX14 cause a syndromic form of cerebellar atrophy and lysosome-autophagosome dysfunction.

作者信息

Akizu Naiara, Cantagrel Vincent, Zaki Maha S, Al-Gazali Lihadh, Wang Xin, Rosti Rasim Ozgur, Dikoglu Esra, Gelot Antoinette Bernabe, Rosti Basak, Vaux Keith K, Scott Eric M, Silhavy Jennifer L, Schroth Jana, Copeland Brett, Schaffer Ashleigh E, Gordts Philip L S M, Esko Jeffrey D, Buschman Matthew D, Field Seth J, Napolitano Gennaro, Abdel-Salam Ghada M, Ozgul R Koksal, Sagıroglu Mahmut Samil, Azam Matloob, Ismail Samira, Aglan Mona, Selim Laila, Mahmoud Iman G, Abdel-Hadi Sawsan, Badawy Amera El, Sadek Abdelrahim A, Mojahedi Faezeh, Kayserili Hulya, Masri Amira, Bastaki Laila, Temtamy Samia, Müller Ulrich, Desguerre Isabelle, Casanova Jean-Laurent, Dursun Ali, Gunel Murat, Gabriel Stacey B, de Lonlay Pascale, Gleeson Joseph G

机构信息

1] Laboratory for Pediatric Brain Disease, The Rockefeller University, New York, New York, USA. [2] Howard Hughes Medical Institute, Chevy Chase, Maryland, USA. [3] Dorris Neuroscience Center, Scripps Research Institute, La Jolla, California, USA.

Institut Imagine, INSERM U1163, Hôpital Necker Enfants Malades, Paris, France.

出版信息

Nat Genet. 2015 May;47(5):528-34. doi: 10.1038/ng.3256. Epub 2015 Apr 6.

DOI:10.1038/ng.3256

PMID:25848753

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4414867/

Abstract

Pediatric-onset ataxias often present clinically as developmental delay and intellectual disability, with prominent cerebellar atrophy as a key neuroradiographic finding. Here we describe a new clinically distinguishable recessive syndrome in 12 families with cerebellar atrophy together with ataxia, coarsened facial features and intellectual disability, due to truncating mutations in the sorting nexin gene SNX14, encoding a ubiquitously expressed modular PX domain-containing sorting factor. We found SNX14 localized to lysosomes and associated with phosphatidylinositol (3,5)-bisphosphate, a key component of late endosomes/lysosomes. Patient-derived cells showed engorged lysosomes and a slower autophagosome clearance rate upon autophagy induction by starvation. Zebrafish morphants for snx14 showed dramatic loss of cerebellar parenchyma, accumulation of autophagosomes and activation of apoptosis. Our results characterize a unique ataxia syndrome due to biallelic SNX14 mutations leading to lysosome-autophagosome dysfunction.

摘要

儿童期起病的共济失调临床上常表现为发育迟缓与智力残疾，显著的小脑萎缩是关键的神经影像学表现。在此，我们描述了一种新的、临床上可区分的隐性综合征，在12个患有小脑萎缩以及共济失调、面部特征粗糙和智力残疾的家庭中发现，这是由于分选连接蛋白基因SNX14发生截短突变所致，该基因编码一种普遍表达的含模块化PX结构域的分选因子。我们发现SNX14定位于溶酶体，并与磷脂酰肌醇(3,5)-二磷酸相关，后者是晚期内体/溶酶体的关键成分。患者来源的细胞在饥饿诱导自噬后显示溶酶体肿胀且自噬体清除率降低。snx14的斑马鱼突变体显示小脑实质显著丧失、自噬体积累和细胞凋亡激活。我们的结果表明，双等位基因SNX14突变导致溶酶体-自噬体功能障碍，从而产生一种独特的共济失调综合征。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3c6b/4414867/e3322c0054e5/nihms669032f1.jpg

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SNX14基因的双等位基因突变会导致一种伴有综合征的小脑萎缩和溶酶体-自噬体功能障碍。

Biallelic mutations in SNX14 cause a syndromic form of cerebellar atrophy and lysosome-autophagosome dysfunction.

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