R. Schröder, W. Kunz, F. Rouan, E. Pfendner, K. Tolksdorf, K. Kappes-Horn, Manuela Altenschmidt-Mehring, R. Knoblich, P. V. D. van der Ven, J. Reimann, D. Fürst, I. Blümcke, S. Vielhaber, D. Zillikens, S. Eming, T. Klockgether, J. Uitto, G. Wiche, A. Rolfs
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引用次数: 99
摘要
人凝集素基因(Plec1)突变可引起常染色体隐性大疱性单纯表皮松解伴肌营养不良(eb - md)。在这里,我们报告了导致EBS-MD严重营养不良肌肉改变的分子机制。对一名25岁的eb - md患者的分析显示,在粘连素的中间丝(IF)结合位点附近携带一种新的16 bp纯合插入突变(13803ins16/13803ins16),表明肌源性IF细胞骨架严重紊乱。肌纤维间和肌上皮下聚集了高度无序的聚丝,这可能是由于突变的粘连蛋白结合能力受损。这种IF病理还与严重的线粒体功能障碍相关,提示IF紊乱引起的EBS-MD肌肉病理不仅导致机械力传导缺陷,还会导致代谢功能障碍。除了EBS-MD,我们的数据可能有助于理解其他以肌浆性IF积累为特征的肌病,如desminopathy或α- b - crystallinopathy。
Disorganization of the Desmin Cytoskeleton and Mitochondrial Dysfunction in Plectin‐Related Epidermolysis Bullosa Simplex with Muscular Dystrophy
Mutations of the human plectin gene (Plec1) cause autosomal recessive epidermolysis bullosa simplex with muscular dystrophy (EBS-MD). Here, we report on molecular mechanisms leading to severe dystrophic muscle alterations in EBS-MD. Analysis of a 25-yr-old EBS-MD patient carrying a novel homozygous 16-bp insertion mutation (13803ins16/13803ins16) close to the intermediate filament (IF) binding site of plectin showed severe disorganization of the myogenic IF cytoskeleton. Intermyofibrillar and subsarcolemmal accumulations of assembled but highly unordered desmin filaments may be attributed to impaired desmin binding capability of the mutant plectin. This IF pathology was also associated with severe mitochondrial dysfunction, suggesting that the muscle pathology of EBS-MD caused by IF disorganization leads not only to defects in mechanical force transduction but also to metabolic dysfunction. Beyond EBS-MD, our data may contribute to the understanding of other myopathies characterized by sarcoplasmic IF accumulations such as desminopathies or α-B-crystallinopathies.
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