Bidirectional role of Costameres in the pathophysiology of mdx skeletal muscles.

IF 3.2 2区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

Human molecular genetics Pub Date : 2025-10-05 DOI:10.1093/hmg/ddaf127

Glen B Banks, Darren R Bisset, Jeffrey S Chamberlain

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Abstract

Skeletal muscles in Duchenne Muscular Dystrophy (DMD) are most susceptible to injury at a point in maturation when dystrophin is absent and utrophin dissipates from the membrane. The lack of the dystrophin glycoprotein complex (DGC) leaves a residual costameric scaffold that structurally connects the peripheral sarcomeres to the sarcolemma. However, the residual costameres are weak and transmit less lateral force making it unclear how they contribute to the pathophysiology of DMD. Here we found that costameres were near absent in mature mdx4cv:desmin double knockout (dko) fast 2b myofibers where the compensating utrophin protein is not upregulated at costameres. The lack of costameres decoupled sarcomere strain injury from tearing the membrane leading to isolated necrotic myofibers. Despite a 30% reduction in the proportion of myofibers with centrally located nuclei (a marker of degenerating/regenerating myofibers), the fast 2b dko muscles were atrophic and profoundly weakened by the sarcomere strain injury. Thus, our data is consistent with the DGC protecting the membrane and peripheral sarcomeres from the bidirectional forces that propagate through the desmin-fortified costameres.

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肋肌在骨骼肌病理生理中的双向作用。

杜氏肌营养不良症（DMD）的骨骼肌在成熟时最容易受到损伤，此时肌营养不良蛋白缺失，肌营养蛋白从膜上消散。缺乏肌营养不良蛋白糖蛋白复合物（DGC），留下一个残余的海岸支架，在结构上连接外周肌节和肌膜。然而，残余肋肌较弱，传递的侧向力较少，因此它们如何参与DMD的病理生理尚不清楚。在这里，我们发现在成熟的mdx4cv:desmin双敲除（dko）快2b肌纤维中几乎不存在伴生体，其中代偿性营养蛋白在伴生体中没有上调。肌节张力损伤与撕裂膜导致孤立的坏死肌纤维是分离的。尽管具有中心核的肌纤维比例减少了30%（退化/再生肌纤维的标志），但快速2b dko肌肉萎缩并因肌节劳损损伤而严重削弱。因此，我们的数据与DGC保护膜和外周肌节免受通过des珉强化膜传播的双向力的观点一致。

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

Human molecular genetics 生物-生化与分子生物学

CiteScore

6.90

自引率

2.90%

发文量

294

审稿时长

2-4 weeks

期刊介绍： Human Molecular Genetics concentrates on full-length research papers covering a wide range of topics in all aspects of human molecular genetics. These include: the molecular basis of human genetic disease developmental genetics cancer genetics neurogenetics chromosome and genome structure and function therapy of genetic disease stem cells in human genetic disease and therapy, including the application of iPS cells genome-wide association studies mouse and other models of human diseases functional genomics computational genomics In addition, the journal also publishes research on other model systems for the analysis of genes, especially when there is an obvious relevance to human genetics.