少突胶质细胞特异性Ddx54基因敲除导致成年期髓鞘致命性破坏。
Lethal adulthood myelin breakdown by oligodendrocyte-specific Ddx54 knockout.
作者信息
Oizumi Hiroaki, Miyamoto Yuki, Seiwa Chika, Yamamoto Masahiro, Yoshioka Nozomu, Iizuka Seiichi, Torii Tomohiro, Ohbuchi Katsuya, Mizoguchi Kazushige, Yamauchi Junji, Asou Hiroaki
机构信息
Tsumura Kampo Laboratories, Tsumura & Co, Ami, Ibaraki 300-1192, Japan.
Department of Pharmacology, National Research Institute for Child Health and Development, Setagaya-ku, Tokyo 157-8535, Japan.
出版信息
iScience. 2023 Jul 21;26(10):107448. doi: 10.1016/j.isci.2023.107448. eCollection 2023 Oct 20.
Multiple sclerosis (MS) is a leading disease that causes disability in young adults. We have previously shown that a DEAD-box RNA helicase Ddx54 binds to mRNA and protein isoforms of myelin basic protein (MBP) and that Ddx54 siRNA blocking abrogates oligodendrocyte migration and myelination. Herein, we show that MBP-driven Ddx54 knockout mice (), after the completion of normal postnatal myelination, gradually develop abnormalities in behavioral profiles and learning ability, inner myelin sheath breakdown, loss of myelinated axons, apoptosis of oligodendrocytes, astrocyte and microglia activation, and they die within 7 months but show minimal peripheral immune cell infiltration. Myelin in is highly vulnerable to the neurotoxicant cuprizone and Ddx54 knockdown greatly impairs myelination . Ddx54 expression in oligodendrocyte-lineage cells decreased in corpus callosum of MS patients. Our results demonstrate that Ddx54 is indispensable for myelin homeostasis, and they provide a demyelinating disease model based on intrinsic disintegration of adult myelin.
多发性硬化症(MS)是导致年轻成年人残疾的主要疾病。我们之前已经表明,一种DEAD盒RNA解旋酶Ddx54与髓鞘碱性蛋白(MBP)的mRNA和蛋白质异构体结合,并且Ddx54 siRNA阻断会消除少突胶质细胞的迁移和髓鞘形成。在此,我们表明,在正常的出生后髓鞘形成完成后,MBP驱动的Ddx54基因敲除小鼠逐渐出现行为特征和学习能力异常、髓鞘内鞘崩解、有髓轴突丢失、少突胶质细胞凋亡、星形胶质细胞和小胶质细胞活化,并且它们在7个月内死亡,但外周免疫细胞浸润极少。[此处原文似乎缺失部分内容]中的髓鞘对神经毒素铜螯合剂高度敏感,并且Ddx54敲低会极大地损害髓鞘形成。MS患者胼胝体中少突胶质细胞系细胞中的Ddx54表达降低。我们的结果表明,Ddx54对于髓鞘稳态是不可或缺的,并且它们提供了一种基于成年髓鞘内在解体的脱髓鞘疾病模型。
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