Mitochondrial dysfunction and consequences in calpain-3-deficient muscle.

IF 5.3 2区医学 Q2 CELL BIOLOGY

Skeletal Muscle Pub Date : 2020-12-11 DOI:10.1186/s13395-020-00254-1

Vanessa E Jahnke, Jennifer M Peterson, Jack H Van Der Meulen, Jessica Boehler, Kitipong Uaesoontrachoon, Helen K Johnston, Aurelia Defour, Aditi Phadke, Qing Yu, Jyoti K Jaiswal, Kanneboyina Nagaraju

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Abstract

Background: Nonsense or loss-of-function mutations in the non-lysosomal cysteine protease calpain-3 result in limb-girdle muscular dystrophy type 2A (LGMD2A). While calpain-3 is implicated in muscle cell differentiation, sarcomere formation, and muscle cytoskeletal remodeling, the physiological basis for LGMD2A has remained elusive.

Methods: Cell growth, gene expression profiling, and mitochondrial content and function were analyzed using muscle and muscle cell cultures established from healthy and calpain-3-deficient mice. Calpain-3-deficient mice were also treated with PPAR-delta agonist (GW501516) to assess mitochondrial function and membrane repair. The unpaired t test was used to assess the significance of the differences observed between the two groups or treatments. ANOVAs were used to assess significance over time.

Results: We find that calpain-3 deficiency causes mitochondrial dysfunction in the muscles and myoblasts. Calpain-3-deficient myoblasts showed increased proliferation, and their gene expression profile showed aberrant mitochondrial biogenesis. Myotube gene expression analysis further revealed altered lipid metabolism in calpain-3-deficient muscle. Mitochondrial defects were validated in vitro and in vivo. We used GW501516 to improve mitochondrial biogenesis in vivo in 7-month-old calpain-3-deficient mice. This treatment improved satellite cell activity as indicated by increased MyoD and Pax7 mRNA expression. It also decreased muscle fatigability and reduced serum creatine kinase levels. The decreased mitochondrial function also impaired sarcolemmal repair in the calpain-3-deficient skeletal muscle. Improving mitochondrial activity by acute pyruvate treatment improved sarcolemmal repair.

Conclusion: Our results provide evidence that calpain-3 deficiency in the skeletal muscle is associated with poor mitochondrial biogenesis and function resulting in poor sarcolemmal repair. Addressing this deficit by drugs that improve mitochondrial activity offers new therapeutic avenues for LGMD2A.

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钙蛋白酶-3缺陷肌肉的线粒体功能障碍及其后果

背景：非溶酶体半胱氨酸蛋白酶钙蛋白酶-3的无义或功能缺失突变导致肢腰肌营养不良症2A型（LGMD2A）。虽然钙蛋白酶-3 与肌肉细胞分化、肌节形成和肌肉细胞骨架重塑有关，但 LGMD2A 的生理基础仍然难以捉摸：方法：使用健康小鼠和钙蛋白酶-3缺陷小鼠的肌肉和肌肉细胞培养物分析细胞生长、基因表达谱、线粒体含量和功能。还用 PPAR-delta 激动剂（GW501516）治疗钙蛋白酶-3 缺乏小鼠，以评估线粒体功能和膜修复。采用非配对 t 检验来评估两组或两种处理之间观察到的差异的显著性。方差分析用于评估随时间变化的显著性：我们发现，钙蛋白酶-3 缺乏会导致肌肉和肌母细胞线粒体功能障碍。钙蛋白酶-3缺乏的肌母细胞增殖增加，其基因表达谱显示线粒体生物发生异常。肌管基因表达分析进一步揭示了钙蛋白酶-3缺陷肌肉中脂质代谢的改变。线粒体缺陷在体外和体内都得到了验证。我们使用 GW501516 来改善 7 个月大的钙蛋白酶-3 缺失小鼠体内线粒体的生物生成。MyoD 和 Pax7 mRNA 表达的增加表明，这种治疗方法改善了卫星细胞的活性。它还降低了肌肉疲劳性，减少了血清肌酸激酶水平。线粒体功能的降低还损害了钙蛋白酶-3缺陷骨骼肌的肌浆修复。通过急性丙酮酸治疗提高线粒体活性可改善肌浆修复：我们的研究结果证明，骨骼肌中的钙蛋白酶-3 缺乏与线粒体生物生成和功能不良有关，从而导致肌浆膜修复不良。通过改善线粒体活性的药物来解决这一缺陷，为 LGMD2A 提供了新的治疗途径。

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来源期刊

Skeletal Muscle CELL BIOLOGY-

CiteScore

9.10

自引率

0.00%

发文量

审稿时长

12 weeks

期刊介绍： The only open access journal in its field, Skeletal Muscle publishes novel, cutting-edge research and technological advancements that investigate the molecular mechanisms underlying the biology of skeletal muscle. Reflecting the breadth of research in this area, the journal welcomes manuscripts about the development, metabolism, the regulation of mass and function, aging, degeneration, dystrophy and regeneration of skeletal muscle, with an emphasis on understanding adult skeletal muscle, its maintenance, and its interactions with non-muscle cell types and regulatory modulators. Main areas of interest include: -differentiation of skeletal muscle- atrophy and hypertrophy of skeletal muscle- aging of skeletal muscle- regeneration and degeneration of skeletal muscle- biology of satellite and satellite-like cells- dystrophic degeneration of skeletal muscle- energy and glucose homeostasis in skeletal muscle- non-dystrophic genetic diseases of skeletal muscle, such as Spinal Muscular Atrophy and myopathies- maintenance of neuromuscular junctions- roles of ryanodine receptors and calcium signaling in skeletal muscle- roles of nuclear receptors in skeletal muscle- roles of GPCRs and GPCR signaling in skeletal muscle- other relevant aspects of skeletal muscle biology. In addition, articles on translational clinical studies that address molecular and cellular mechanisms of skeletal muscle will be published. Case reports are also encouraged for submission. Skeletal Muscle reflects the breadth of research on skeletal muscle and bridges gaps between diverse areas of science for example cardiac cell biology and neurobiology, which share common features with respect to cell differentiation, excitatory membranes, cell-cell communication, and maintenance. Suitable articles are model and mechanism-driven, and apply statistical principles where appropriate; purely descriptive studies are of lesser interest.

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