PNPLA8的双唇缺失变体会减少基底放射状胶质细胞的数量,从而导致小头畸形。

IF 10.6 1区 医学 Q1 CLINICAL NEUROLOGY
Brain Pub Date : 2024-11-04 DOI:10.1093/brain/awae185
Yuji Nakamura, Issei S Shimada, Reza Maroofian, Micol Falabella, Maha S Zaki, Masanori Fujimoto, Emi Sato, Hiroshi Takase, Shiho Aoki, Akihiko Miyauchi, Eriko Koshimizu, Satoko Miyatake, Yuko Arioka, Mizuki Honda, Takayoshi Higashi, Fuyuki Miya, Yukimune Okubo, Isamu Ogawa, Annarita Scardamaglia, Mohammad Miryounesi, Sahar Alijanpour, Farzad Ahmadabadi, Peter Herkenrath, Hormos Salimi Dafsari, Clara Velmans, Mohammed Al Balwi, Antonio Vitobello, Anne-Sophie Denommé-Pichon, Médéric Jeanne, Antoine Civit, Mohamed S Abdel-Hamid, Hamed Naderi, Hossein Darvish, Somayeh Bakhtiari, Michael C Kruer, Christopher J Carroll, Ehsan Ghayoor Karimiani, Rozhgar A Khailany, Talib Adil Abdulqadir, Mehmet Ozaslan, Peter Bauer, Giovanni Zifarelli, Tahere Seifi, Mina Zamani, Chadi Al Alam, Javeria Raza Alvi, Tipu Sultan, Stephanie Efthymiou, Simon A S Pope, Kazuhiro Haginoya, Tamihide Matsunaga, Hitoshi Osaka, Naomichi Matsumoto, Norio Ozaki, Yasuyuki Ohkawa, Shinya Oki, Tatsuhiko Tsunoda, Robert D S Pitceathly, Yoshitaka Taketomi, Henry Houlden, Makoto Murakami, Yoichi Kato, Shinji Saitoh
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引用次数: 0

摘要

帕他丁样磷脂酶域含脂酶 8(PNPLA8)是钙依赖性磷脂酶 A2 酶之一,通过维持膜磷脂参与各种生理过程。PNPLA8 的双叶变体与一系列儿科神经退行性疾病有关。然而,人们对其表型谱、基因型与表型之间的相关性及其内在机制还知之甚少。在这里,我们从 12 个非亲缘关系的家庭中新发现了 14 个具有 PNPLA8 双倍拷贝超稀有变异的个体,这些个体具有广泛的临床特征表型谱。对目前和以前报道的个体(20 个家族中的 25 个受影响个体)临床特征的分析表明,与 PNPLA8 相关的神经系统疾病表现为从可变的发育性和/或退行性癫痫-运动障碍性脑病到儿童期发病的神经变性的连续过程。我们发现,PNPLA8 基因完全缺失会导致更严重的先天性小头畸形。利用由人类诱导多能干细胞生成的脑器官组织,我们发现 PNPLA8 的缺失会减少基底放射状胶质细胞和上层神经元的数量,从而导致发育缺陷。空间转录组学显示,PNPLA8的缺失改变了顶端放射状胶质细胞的命运规格,这反映在与细胞周期、基底放射状胶质细胞和神经分化有关的基因组的富集上。缺乏PNPLA8的神经祖细胞显示溶血磷脂酸、溶血磷脂酰乙醇胺和磷脂酸的数量减少。通过添加溶血磷脂酸,患者衍生的脑器官组织中基底放射状胶质细胞数量的减少得到了部分缓解。我们的数据表明,在人脑发育过程中,PNPLA8对满足磷脂合成需求和产生丰富的基底放射状胶质细胞至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Biallelic null variants in PNPLA8 cause microcephaly by reducing the number of basal radial glia.

Patatin-like phospholipase domain-containing lipase 8 (PNPLA8), one of the calcium-independent phospholipase A2 enzymes, is involved in various physiological processes through the maintenance of membrane phospholipids. Biallelic variants in PNPLA8 have been associated with a range of paediatric neurodegenerative disorders. However, the phenotypic spectrum, genotype-phenotype correlations and the underlying mechanisms are poorly understood. Here, we newly identified 14 individuals from 12 unrelated families with biallelic ultra-rare variants in PNPLA8 presenting with a wide phenotypic spectrum of clinical features. Analysis of the clinical features of current and previously reported individuals (25 affected individuals across 20 families) showed that PNPLA8-related neurological diseases manifest as a continuum ranging from variable developmental and/or degenerative epileptic-dyskinetic encephalopathy to childhood-onset neurodegeneration. We found that complete loss of PNPLA8 was associated with the more profound end of the spectrum, with congenital microcephaly. Using cerebral organoids generated from human induced pluripotent stem cells, we found that loss of PNPLA8 led to developmental defects by reducing the number of basal radial glial cells and upper-layer neurons. Spatial transcriptomics revealed that loss of PNPLA8 altered the fate specification of apical radial glial cells, as reflected by the enrichment of gene sets related to the cell cycle, basal radial glial cells and neural differentiation. Neural progenitor cells lacking PNPLA8 showed a reduced amount of lysophosphatidic acid, lysophosphatidylethanolamine and phosphatidic acid. The reduced number of basal radial glial cells in patient-derived cerebral organoids was rescued, in part, by the addition of lysophosphatidic acid. Our data suggest that PNPLA8 is crucial to meet phospholipid synthetic needs and to produce abundant basal radial glial cells in human brain development.

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来源期刊
Brain
Brain 医学-临床神经学
CiteScore
20.30
自引率
4.10%
发文量
458
审稿时长
3-6 weeks
期刊介绍: Brain, a journal focused on clinical neurology and translational neuroscience, has been publishing landmark papers since 1878. The journal aims to expand its scope by including studies that shed light on disease mechanisms and conducting innovative clinical trials for brain disorders. With a wide range of topics covered, the Editorial Board represents the international readership and diverse coverage of the journal. Accepted articles are promptly posted online, typically within a few weeks of acceptance. As of 2022, Brain holds an impressive impact factor of 14.5, according to the Journal Citation Reports.
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