Causes of clinical variability in Duchenne and Becker muscular dystrophies and implications for exon skipping therapies.

Q3 Medicine
Eric P Hoffman
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引用次数: 15

Abstract

Becker muscular dystrophy is caused by mutations in the DMD gene that permit significant residual dystrophin protein expression in patient muscle. This is in contrast to DMD gene mutations in Duchenne muscular dystrophy where little or no dystrophin is produced (typically < 3% normal levels). Clinically, Becker muscular dystrophy is extremely variable, from slightly milder than DMD, to asymptomatic hyperCKemia at old age. The factors driving clinical variability in Becker muscular dystrophy have now been studied in some depth, and the findings are likely highly relevant to anticipated clinical findings in exon skipping therapy in DMD. The specific mutations in Becker dystrophy play an important role, and clinical variability is less with high frequency mutations (deletions exons 45-47, 45-48). The percentage of dystrophin content in patient muscle is not well-correlated with clinical findings. Muscle MRI findings (degree of fibrofatty replacement) are very well-correlated with the degree of patient disability, regardless of mutation or muscle dystrophin content. Taken together, data to date suggest that the main determinant driving clinical disability in Becker dystrophy patients is the degree of fibrofatty replacement in muscle. Thus, as with DMD, DMD gene mutations and resulting dystrophin protein abnormalities initiate the disease process, but downstream tissue pathophysiology plays a dominant role in disease progression. Factors influencing the age-dependent rate of fibrofatty replacement of muscles are responsible for much of the clinical variability seen in Becker dystrophy, as well as Duchenne dystrophy. These fibrosis-related factors include genetic modifiers, degree of muscle inflammation, and induction of microRNAs in muscle that bind to dystrophin mRNA and down-regulate dystrophin protein content in patient muscle. Studies to date regarding clinical variability in Becker dystrophy suggest that exon skipping therapy in DMD may show variable efficacy from patient to patient.

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杜氏肌营养不良症和贝克尔肌营养不良症临床变异的原因及外显子跳跃治疗的意义。
贝克肌营养不良症是由DMD基因突变引起的,该基因允许患者肌肉中显著残留的肌营养不良蛋白表达。这与杜氏肌营养不良症的DMD基因突变相反,杜氏肌营养不良症产生很少或不产生肌营养不良蛋白(通常< 3%正常水平)。临床上,贝克肌营养不良症是非常多变的,从轻微的DMD,到老年无症状的高血血症。驱动贝克肌萎缩症临床变异性的因素现在已经进行了一些深入的研究,这些发现可能与DMD外显子跳过治疗的预期临床结果高度相关。贝克营养不良的特定突变起着重要作用,高频突变的临床变异性较小(缺失外显子45- 47,45 -48)。患者肌肉中肌营养不良蛋白含量的百分比与临床表现没有很好的相关性。肌肉MRI结果(纤维脂肪替代程度)与患者残疾程度非常相关,无论突变或肌营养不良蛋白含量如何。综上所述,迄今为止的数据表明,导致贝克营养不良患者临床残疾的主要决定因素是肌肉中纤维脂肪替代的程度。因此,与DMD一样,DMD基因突变和由此产生的肌营养不良蛋白异常启动了疾病过程,但下游组织病理生理在疾病进展中起主导作用。影响纤维脂肪替代肌肉的年龄依赖率的因素是在Becker营养不良症和Duchenne营养不良症中看到的临床变异性的主要原因。这些纤维化相关因素包括遗传修饰因子、肌肉炎症程度、肌肉中与肌营养不良蛋白mRNA结合并下调患者肌肉中肌营养不良蛋白含量的microrna的诱导。迄今为止关于贝克营养不良症临床变异性的研究表明,DMD的外显子跳过治疗可能在患者之间表现出不同的疗效。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Acta Myologica
Acta Myologica Medicine-Cardiology and Cardiovascular Medicine
CiteScore
3.70
自引率
0.00%
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