两种新型 Gjb1 相关的 X 型腓骨肌萎缩症的小鼠模型。

Two new mouse models of Gjb1-associated Charcot-Marie-Tooth disease type 1X.

机构信息

The Jackson Laboratory, Bar Harbor, Maine, USA.

出版信息

J Peripher Nerv Syst. 2023 Sep;28(3):317-328. doi: 10.1111/jns.12588. Epub 2023 Aug 22.

DOI:10.1111/jns.12588

PMID:37551045

Abstract

BACKGROUND

Charcot-Marie-Tooth disease type 1X is caused by mutations in GJB1, which is the second most common gene associated with inherited peripheral neuropathy. The GJB1 gene encodes connexin 32 (CX32), a gap junction protein expressed in myelinating glial cells. The gene is X-linked, and the mutations cause a loss of function.

AIMS

A large number of disease-associated variants have been identified, and many result in mistrafficking and mislocalization of the protein. An existing knockout mouse lacking Gjb1 expression provides a valid animal model of CMT1X, but the complete lack of protein may not fully recapitulate the disease mechanisms caused by aberrant CX32 proteins. To better represent the spectrum of human CMT1X-associated mutations, we have generated a new Gjb1 knockin mouse model.

METHODS

CRISPR/Cas9 genome editing was used to produce mice carrying the R15Q mutation in Gjb1. In addition, we identified a second allele with an early frame shift mutation in codon 7 (del2). Mice were analyzed using clinically relevant molecular, histological, neurophysiological, and behavioral assays.

RESULTS

Both alleles produce protein detectable by immunofluorescence in Schwann cells, with some protein properly localizing to nodes of Ranvier. However, both alleles also result in peripheral neuropathy with thinly myelinated and demyelinated axons, as well as degenerating and regenerating axons, predominantly in distal motor nerves. Nerve conduction velocities were only mildly reduced at later ages and compound muscle action potential amplitudes were not reduced. Levels of neurofilament light chain in plasma were elevated in both alleles. The del2 mice have an onset at ~3 months of age, whereas the R15Q mice had a later onset at 5-6 months of age, suggesting a milder loss of function. Both alleles performed comparably to wild type littermates in accelerating rotarod and grip strength tests of neuromuscular performance.

INTERPRETATION

We have generated and characterized two new mouse models of CMT1X that will be useful for future mechanistic and preclinical studies.

摘要

背景

X 连锁遗传性周围神经病的第二种最常见相关基因是 GJB1 基因突变引起的腓骨肌萎缩症 1X 型（Charcot-Marie-Tooth disease type 1X，CMT1X）。GJB1 基因编码间隙连接蛋白 32（connexin 32，CX32），该蛋白在有髓神经胶质细胞中表达。该基因位于 X 染色体上，突变导致功能丧失。

目的

已发现大量与疾病相关的变异体，其中许多导致蛋白错误运输和定位。一种现有的 Gjb1 缺失表达的基因敲除小鼠提供了 CMT1X 的有效动物模型，但完全缺乏蛋白可能无法完全再现由异常 CX32 蛋白引起的疾病机制。为了更好地代表人类 CMT1X 相关突变的范围，我们构建了一种新的 Gjb1 基因敲入小鼠模型。

方法

使用 CRISPR/Cas9 基因组编辑技术产生携带 Gjb1 中 R15Q 突变的小鼠。此外，我们还鉴定了另一个带有第 7 位密码子提前移码突变（del2）的等位基因。使用临床相关的分子、组织学、神经生理学和行为学检测方法对小鼠进行分析。

结果

两个等位基因均能在施万细胞中通过免疫荧光检测到蛋白，部分蛋白正确定位于郎飞结。然而，两个等位基因都导致周围神经病变，表现为有髓和无髓轴突变薄以及退行性和再生轴突，主要累及远端运动神经。神经传导速度在较晚年龄时仅轻度降低，复合肌肉动作电位幅度不降低。两种等位基因的血浆神经丝轻链水平均升高。del2 小鼠在 3 月龄左右发病，而 R15Q 小鼠在 5-6 月龄时发病，提示功能丧失较轻。两种等位基因在加速旋转棒和握力测试中的神经肌肉性能方面与野生型同窝仔鼠表现相当。