Dagvadorj Ayush, Goudeau Bertrand, Hilton-Jones David, Blancato Jan K, Shatunov Alexey, Simon-Casteras Monique, Squier Waney, Nagle James W, Goldfarb Lev G, Vicart Patrick
Clinical Neurogenetics Unit, National Institute of Neurological Disorders and Stroke, National Institutes of Health, Bldg. 10, Room 4B37, 10 Central Dr., MSC 1361, Bethesda, Maryland 20892-1361, USA.
Muscle Nerve. 2003 Jun;27(6):669-75. doi: 10.1002/mus.10370.
Mutations in desmin gene have been identified in patients with cardiac and skeletal myopathy characterized by intracytoplasmic accumulation of desmin-reactive deposits and electron-dense granular aggregates. We characterized two new desminopathy families with unusual features of adult-onset, slowly progressive, diffuse skeletal myopathy and respiratory insufficiency. Progressive reduction of respiratory muscle strength became clinically detectable between the 3rd and the 8th years of illness and led to recurrent chest infections and death in one of the patients. Novel mutations, A357P and L370P, predicted to introduce proline residue into a highly conserved alpha-helical region of desmin, were identified. Proline is known to disrupt the alpha-helix. In addition, the A357P mutation distorts a unique stutter sequence that is considered to be critically important for proper filament assembly. Functional assessment in two cell-lines, one of which does and the other of which does not constitutively produce type III intermediate filaments, demonstrated the inability of mutant desmin carrying either the A357P or the L370P mutation to polymerize and form an intracellular filamentous network. The results of this study indicate that respiratory insufficiency is an intrinsic feature of disease associated with specific desmin mutations; in some patients, respiratory weakness may present as a dominant clinical manifestation and a major cause of disability and death.
在患有心脏和骨骼肌病的患者中已鉴定出结蛋白基因突变,其特征为结蛋白反应性沉积物和电子致密颗粒聚集体的胞浆内积聚。我们对两个新的结蛋白病家族进行了特征分析,这些家族具有成人发病、缓慢进展、弥漫性骨骼肌病和呼吸功能不全的不寻常特征。在患病的第3年至第8年之间,呼吸肌力量逐渐下降在临床上可检测到,并导致其中一名患者反复发生胸部感染并死亡。鉴定出了新的突变A357P和L370P,预计这些突变会在结蛋白的高度保守α螺旋区域引入脯氨酸残基。已知脯氨酸会破坏α螺旋。此外,A357P突变使一个独特的口吃序列发生扭曲,该序列被认为对正确的细丝组装至关重要。在两个细胞系中进行的功能评估表明,携带A357P或L370P突变的突变结蛋白无法聚合并形成细胞内丝状网络,其中一个细胞系组成性产生III型中间丝,另一个则不产生。这项研究的结果表明,呼吸功能不全是与特定结蛋白突变相关疾病的一个内在特征;在一些患者中,呼吸肌无力可能是主要的临床表现以及致残和死亡的主要原因。