Goudeau Bertrand, Rodrigues-Lima Fernando, Fischer Dirk, Casteras-Simon Monique, Sambuughin Nyamkhishig, de Visser Marianne, Laforet Pascal, Ferrer Xavier, Chapon Françoise, Sjöberg Gunnar, Kostareva Anna, Sejersen Thomas, Dalakas Marinos C, Goldfarb Lev G, Vicart Patrick
EA300, Université Paris 7 Denis Diderot, Paris, France.
Hum Mutat. 2006 Sep;27(9):906-13. doi: 10.1002/humu.20351.
Mutations in the desmin gene have been recognized as a cause of desminopathy, a familial or sporadic disorder characterized by skeletal muscle weakness, often associated with cardiomyopathy or respiratory insufficiency. Distinctive histopathologic features include aberrant intracytoplasmic accumulation of desmin (DES). We present here comparative phenotypic, molecular, and functional characteristics of four novel and three previously reported, but not fully characterized, desmin mutations localized in desmin alpha-helical domain. The results indicate that the c.638C>T (p.A213V), c.1178A>T (p.N393I), and to some extent the c.1078G>C (p.A360P) mutations exhibit pathogenic potentials only if combined with other mutations in desmin or other genes and should therefore be considered conditionally pathogenic. The c.1009G>C (p.A337P), c.1013T>G (p.L338R), c.1195G>T (p.D399Y), and c.1201G>A (p.E401K) mutations make desmin filaments dysfunctional and are capable of causing disease. The pathogenic potentials of desmin mutations correlate with the type and location of the disease-associated mutations in the relatively large and structurally and functionally complex desmin molecule. Mutations within the highly conserved alpha-helical structures are especially damaging since the integrity of the alpha-helix is critical for desmin filament assembly and stability.
结蛋白基因突变已被确认为结蛋白病的病因,结蛋白病是一种家族性或散发性疾病,其特征为骨骼肌无力,常伴有心肌病或呼吸功能不全。独特的组织病理学特征包括结蛋白(DES)在细胞质内异常积聚。我们在此展示了位于结蛋白α螺旋结构域的四个新的以及三个先前报道但未完全表征的结蛋白突变的比较性表型、分子和功能特征。结果表明,c.638C>T(p.A213V)、c.1178A>T(p.N393I)以及在一定程度上c.1078G>C(p.A360P)突变只有在与结蛋白或其他基因中的其他突变结合时才表现出致病潜力,因此应被视为条件致病性突变。c.1009G>C(p.A337P)、c.1013T>G(p.L338R)、c.1195G>T(p.D399Y)和c.1201G>A(p.E401K)突变使结蛋白丝功能失调并能够致病。结蛋白突变的致病潜力与相对较大且结构和功能复杂的结蛋白分子中与疾病相关突变的类型和位置相关。高度保守的α螺旋结构内的突变尤其具有破坏性,因为α螺旋的完整性对于结蛋白丝的组装和稳定性至关重要。
