Microglial phagolysosome dysfunction and altered neural communication amplify phenotypic severity in Prader-Willi Syndrome with larger deletion.

IF 9.3 1区医学 Q1 CLINICAL NEUROLOGY

Acta Neuropathologica Pub Date : 2024-03-31 DOI:10.1007/s00401-024-02714-0

Felipe Correa-da-Silva, Jenny Carter, Xin-Yuan Wang, Rui Sun, Ekta Pathak, José Manuel Monroy Kuhn, Sonja C Schriever, Clarissa M Maya-Monteiro, Han Jiao, Martin J Kalsbeek, Pedro M M Moraes-Vieira, Johan J P Gille, Margje Sinnema, Constance T R M Stumpel, Leopold M G Curfs, Dirk Jan Stenvers, Paul T Pfluger, Dominik Lutter, Alberto M Pereira, Andries Kalsbeek, Eric Fliers, Dick F Swaab, Lawrence Wilkinson, Yuanqing Gao, Chun-Xia Yi

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Abstract

Prader-Willi Syndrome (PWS) is a rare neurodevelopmental disorder of genetic etiology, characterized by paternal deletion of genes located at chromosome 15 in 70% of cases. Two distinct genetic subtypes of PWS deletions are characterized, where type I (PWS T1) carries four extra haploinsufficient genes compared to type II (PWS T2). PWS T1 individuals display more pronounced physiological and cognitive abnormalities than PWS T2, yet the exact neuropathological mechanisms behind these differences remain unclear. Our study employed postmortem hypothalamic tissues from PWS T1 and T2 individuals, conducting transcriptomic analyses and cell-specific protein profiling in white matter, neurons, and glial cells to unravel the cellular and molecular basis of phenotypic severity in PWS sub-genotypes. In PWS T1, key pathways for cell structure, integrity, and neuronal communication are notably diminished, while glymphatic system activity is heightened compared to PWS T2. The microglial defect in PWS T1 appears to stem from gene haploinsufficiency, as global and myeloid-specific Cyfip1 haploinsufficiency in murine models demonstrated. Our findings emphasize microglial phagolysosome dysfunction and altered neural communication as crucial contributors to the severity of PWS T1's phenotype.

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小胶质细胞吞噬小体功能障碍和神经通信改变扩大了普拉德-威利综合征大缺失的表型严重性。

普拉德-威利综合征（Prader-Willi Syndrome，PWS）是一种罕见的遗传性神经发育障碍疾病，70%的病例都存在位于 15 号染色体的父系基因缺失。PWS 基因缺失有两种不同的遗传亚型，与第二型（PWS T2）相比，第一型（PWS T1）携带四个额外的单倍体不足基因。与PWS T2型相比，PWS T1型患者表现出更明显的生理和认知异常，但这些差异背后的确切神经病理学机制仍不清楚。我们的研究采用了 PWS T1 和 PWS T2 患者死后的下丘脑组织，在白质、神经元和胶质细胞中进行了转录组分析和细胞特异性蛋白质分析，以揭示 PWS 亚基因型表型严重性的细胞和分子基础。与PWS T2相比，PWS T1中细胞结构、完整性和神经元通讯的关键通路明显减弱，而神经胶质细胞系统的活动增强。PWS T1 中的小胶质细胞缺陷似乎源于基因单倍体缺陷，正如在小鼠模型中证实的全球性和骨髓特异性 Cyfip1 单倍体缺陷一样。我们的研究结果强调，小胶质细胞吞噬溶酶体功能障碍和神经通讯改变是导致 PWS T1 表型严重的关键因素。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Acta Neuropathologica 医学-病理学

CiteScore

23.70

自引率

3.90%

发文量

118

审稿时长

4-8 weeks

期刊介绍： Acta Neuropathologica publishes top-quality papers on the pathology of neurological diseases and experimental studies on molecular and cellular mechanisms using in vitro and in vivo models, ideally validated by analysis of human tissues. The journal accepts Original Papers, Review Articles, Case Reports, and Scientific Correspondence (Letters). Manuscripts must adhere to ethical standards, including review by appropriate ethics committees for human studies and compliance with principles of laboratory animal care for animal experiments. Failure to comply may result in rejection of the manuscript, and authors are responsible for ensuring accuracy and adherence to these requirements.

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