曲尼司特可减少mdx营养不良小鼠的纤维化,提高其肌肉的抗疲劳能力。

Kristy Swiderski, Michelle Todorov, Stefan M Gehrig, Timur Naim, Annabel Chee, David I Stapleton, René Koopman, Gordon S Lynch
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引用次数: 30

摘要

背景:杜氏肌营养不良症(DMD)是一种严重的进行性肌肉萎缩疾病,由肌营养不良蛋白基因突变引起,导致膜稳定蛋白肌营养不良蛋白缺失。营养不良的肌纤维容易受到损伤和变性,肌肉再生受损与纤维化沉积有关,这限制了潜在的药物、细胞和基因治疗的疗效。预防或减轻纤维化的新疗法对DMD及相关神经肌肉疾病具有重要的临床价值。我们研究了曲尼司特的治疗潜力,曲尼司特是一种口服抗过敏剂,用于预防mdx营养不良小鼠骨骼肌纤维化。结果:3周龄C57Bl/10和mdx小鼠在食物中添加曲尼司特(~300 mg/kg) 9周后,通过组织学分析评估纤维化程度,并原位评估胫骨前肌和离体膈肌条的功能特性。曲尼司特给药没有显著改变对照组或mdx小鼠的任何肌肉质量,但与未给药的mdx小鼠相比,严重受损的膈肌纤维化减少了31% (P)。总之,这些发现表明,有效的抗纤维化化合物,如曲尼司特,可以帮助保持骨骼肌结构,这可能最终提高药物、细胞和基因替代/矫正治疗对肌肉萎缩症和相关疾病的疗效。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Tranilast administration reduces fibrosis and improves fatigue resistance in muscles of mdx dystrophic mice.

Tranilast administration reduces fibrosis and improves fatigue resistance in muscles of mdx dystrophic mice.

Tranilast administration reduces fibrosis and improves fatigue resistance in muscles of mdx dystrophic mice.

Tranilast administration reduces fibrosis and improves fatigue resistance in muscles of mdx dystrophic mice.

Background: Duchenne muscular dystrophy (DMD) is a severe and progressive muscle-wasting disorder caused by mutations in the dystrophin gene that result in the absence of the membrane-stabilising protein dystrophin. Dystrophic muscle fibres are susceptible to injury and degeneration, and impaired muscle regeneration is associated with fibrotic deposition that limits the efficacy of potential pharmacological, cell- and gene-based therapies. Novel treatments that can prevent or attenuate fibrosis have important clinical merit for DMD and related neuromuscular diseases. We investigated the therapeutic potential for tranilast, an orally bioavailable anti-allergic agent, to prevent fibrosis in skeletal muscles of mdx dystrophic mice.

Results: Three-week-old C57Bl/10 and mdx mice received tranilast (~300 mg/kg) in their food for 9 weeks, after which fibrosis was assessed through histological analyses, and functional properties of tibialis anterior muscles were assessed in situ and diaphragm muscle strips in vitro. Tranilast administration did not significantly alter the mass of any muscles in control or mdx mice, but it decreased fibrosis in the severely affected diaphragm muscle by 31% compared with untreated mdx mice (P < 0.05). A similar trend of decreased fibrosis was observed in the tibialis anterior muscles of mdx mice (P = 0.10). These reductions in fibrotic deposition were not associated with improvements in maximum force-producing capacity, but we did observe small but significant improvements in the resistance to fatigue in both the diaphragm and TA muscles of mdx mice treated with tranilast.

Conclusion: Together these findings demonstrate that administration of potent antifibrotic compounds such as tranilast could help preserve skeletal muscle structure, which could ultimately increase the efficacy of pharmacological, cell and gene replacement/correction therapies for muscular dystrophy and related disorders.

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