下调与突触功能相关的神经胶质基因可减轻亨廷顿病的发病机制。

Downregulation of glial genes involved in synaptic function mitigates Huntington's disease pathogenesis.

机构信息

Department of Molecular and Human Genetics, Baylor College of Medicine, Houston, United States.

Jan and Dan Duncan Neurological Research Institute at Texas Children's Hospital, Houston, United States.

出版信息

Elife. 2021 Apr 19;10:e64564. doi: 10.7554/eLife.64564.

DOI:10.7554/eLife.64564

PMID:33871358

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8149125/

Abstract

Most research on neurodegenerative diseases has focused on neurons, yet glia help form and maintain the synapses whose loss is so prominent in these conditions. To investigate the contributions of glia to Huntington's disease (HD), we profiled the gene expression alterations of expressing human mutant (m) in either glia or neurons and compared these changes to what is observed in HD human and HD mice striata. A large portion of conserved genes are concordantly dysregulated across the three species; we tested these genes in a high-throughput behavioral assay and found that downregulation of genes involved in synapse assembly mitigated pathogenesis and behavioral deficits. To our surprise, reducing d function in glia was sufficient to improve the phenotype of flies expressing m in neurons, suggesting that mHTT's toxic effects in glia ramify throughout the brain. This supports a model in which dampening synaptic function is protective because it attenuates the excitotoxicity that characterizes HD.

摘要

大多数神经退行性疾病的研究都集中在神经元上，但神经胶质细胞有助于形成和维持突触，而这些突触在这些疾病中非常明显的丢失。为了研究神经胶质细胞对亨廷顿病 (HD) 的贡献，我们对表达人类突变体 (m) 的神经胶质细胞或神经元中的基因表达变化进行了分析，并将这些变化与 HD 人类和 HD 小鼠纹状体中的观察结果进行了比较。在这三个物种中，很大一部分保守基因的表达都发生了一致性失调；我们在高通量行为检测中对这些基因进行了测试，发现参与突触组装的基因下调减轻了发病机制和行为缺陷。令我们惊讶的是，降低神经胶质细胞中的 d 功能足以改善在神经元中表达 m 的果蝇的表型，这表明 mHTT 在神经胶质细胞中的毒性作用会在整个大脑中扩散。这支持了一种模型，即抑制突触功能具有保护作用，因为它可以减轻特征性的 HD 中的兴奋性毒性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/85a3/8149125/50899e914751/elife-64564-fig1.jpg

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下调与突触功能相关的神经胶质基因可减轻亨廷顿病的发病机制。

Downregulation of glial genes involved in synaptic function mitigates Huntington's disease pathogenesis.

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