Comparative Study of Structural and Functional Rearrangements in Skeletal Muscle Mitochondria of SOD1-G93A Transgenic Mice at Pre-, Early-, and Late-Symptomatic Stages of ALS Progression.

IF 3.1 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Frontiers in bioscience (Landmark edition) Pub Date : 2025-03-18 DOI:10.31083/FBL28260

Natalia V Belosludtseva, Anna I Ilzorkina, Mikhail V Dubinin, Irina B Mikheeva, Konstantin N Belosludtsev

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Abstract

Background: Amyotrophic lateral sclerosis (ALS) is a progressive multisystem disease characterized by limb and trunk muscle weakness that is attributed, in part, to abnormalities in mitochondrial ultrastructure and impaired mitochondrial functions. This study investigated the time course of structural and functional rearrangements in skeletal muscle mitochondria in combination with motor impairments in Tg (copper-zinc superoxide dismutase enzyme (SOD1) G93A) dl1/GurJ (referred to as SOD1-G93A/low) male mice, a familial ALS model, as compared with non-transgenic littermates.

Methods: The neurological status and motor functions were assessed weekly using the paw grip endurance method and the grid suspension test with two-limb and four-limb suspension tasks. Transmission electron microscopy followed by quantitative analysis was performed to study ultrastructural alterations in the quadriceps femoris. Functional analysis of skeletal muscle mitochondria was performed using high-resolution Oxygraph-2k (O2K) respirometry and methods for assessing the calcium retention capacity index and the content of lipid peroxidation products in freshly isolated preparations.

Results: Based on the behavioral phenotyping data, specific age groups were identified: postnatal day 56 (P56) (n = 10-11), 84 (P84) (n = 10-11), and 156 (P154) (n = 10-12), representing the pre-symptomatic, early-symptomatic and late-symptomatic stages of ALS progression in SOD1-G93A/low mice, respectively. Electron microscopy showed mosaic destructive changes in subsarcolemmal mitochondria in fibers of the quadriceps femoris from 84-day-old SOD1-G93A/low mice. Morphometric analysis revealed an elevation in the mean size of the mitochondria in SOD1-G93A mice at P84 and P154. In addition, the P154 transgenic group demonstrated a decrease in sarcomere width and the number of mitochondria per unit area. At the symptomatic stage, SOD1-G93A mice exhibited a decreased respiratory control ratio, ADP-stimulated, and uncoupled respiration rates of mitochondria isolated from the quadriceps femoris muscle, as measured by high-resolution respirometry. In parallel, the mitochondria showed lower calcium retention capacity and increased levels of lipid peroxidation products compared with the control.

Conclusions: Taken together, these results indicate stage-dependent changes in skeletal muscle mitochondrial ultrastructure and functions associated with defective oxidative phosphorylation, impaired calcium homeostasis, and oxidative damage in the SOD1-G93A/low mouse model, which appears to be a promising direction for the development of combination therapies for ALS.

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SOD1-G93A转基因小鼠骨骼肌线粒体在渐冻症进展前期、早期和晚期的结构和功能重排比较研究

背景：肌萎缩性侧索硬化症（ALS）是一种进行性多系统疾病，其特征是肢体和躯干肌肉无力，部分原因是线粒体超微结构异常和线粒体功能受损。本研究研究了家族性ALS模型雄性小鼠Tg（铜锌超氧化物歧化酶（SOD1） G93A） dl1/GurJ（简称SOD1-G93A/low）与非转基因幼鼠相比，骨骼肌线粒体结构和功能重排合并运动损伤的时间过程。方法：采用爪抓耐力法和两肢、四肢悬吊网格测试，每周对大鼠的神经状态和运动功能进行评估。透射电镜及定量分析观察股四头肌超微结构变化。采用高分辨率Oxygraph-2k （O2K）呼吸仪和新分离制剂中钙保留容量指数和脂质过氧化产物含量的评估方法对骨骼肌线粒体进行功能分析。结果：根据行为表型数据，确定了SOD1-G93A/low小鼠的特定年龄组：出生后56天（P56）（n = 10-11）、84天（P84）（n = 10-11）和156天（P154）（n = 10-12），分别代表SOD1-G93A/low小鼠ALS进展的症状前期、症状早期和症状晚期。电镜观察显示，84日龄SOD1-G93A/low小鼠股四头肌纤维肌下线粒体出现马赛克破坏性改变。形态计量学分析显示，SOD1-G93A小鼠线粒体的平均大小在P84和P154处升高。此外，P154转基因组表现出肌节宽度和单位面积线粒体数量的减少。在症状期，SOD1-G93A小鼠表现出呼吸控制率下降，adp刺激，以及从股四头肌分离的线粒体的不耦合呼吸速率，通过高分辨率呼吸仪测量。同时，与对照组相比，线粒体的钙保留能力较低，脂质过氧化产物水平升高。综上所述，这些结果表明SOD1-G93A/low小鼠模型中骨骼肌线粒体超微结构和功能的阶段依赖性变化与氧化磷酸化缺陷、钙稳态受损和氧化损伤相关，这似乎是ALS联合治疗发展的一个有希望的方向。

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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Frontiers in bioscience (Landmark edition)

CiteScore

3.50

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0.00%

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