帕金森病相关DJ-1突变的结构效应
Structural effects of Parkinson's disease linked DJ-1 mutations.
作者信息
Malgieri Gaetano, Eliezer David
机构信息
Department of Biochemistry and Program in Structural Biology, Weill Cornell Medical College, New York, New York 10021, USA.
出版信息
Protein Sci. 2008 May;17(5):855-68. doi: 10.1110/ps.073411608.
Abstract
Mutations in the protein DJ-1 are associated with familial forms of Parkinson's disease, indicating that DJ-1 may be involved in pathways related to the etiology of this disorder. Here we have used solution state NMR and circular dichroism spectroscopies to evaluate the extent of structural perturbations associated with five different Parkinson's disease linked DJ-1mutations: L166P, E64D, M26I, A104T, and D149A. Comparison of the data with those obtained for the wild-type protein shows that the L166P mutation leads to severe and global destabilization and unfolding of the protein structure, while the structure of the E64D mutation, as expected, is nearly unperturbed. Interestingly, the remaining three mutants all show different degrees of structural perturbation, which are accompanied by a reduction in the thermodynamic stability of the protein. The observed structural and thermodynamic differences are likely to underlie any functional variations between these mutants and the wild type, which in turn are likely responsible for the pathogenicity of these mutations.
摘要
蛋白质DJ-1中的突变与帕金森病的家族形式相关,这表明DJ-1可能参与了与该疾病病因相关的途径。在此,我们使用溶液态核磁共振和圆二色光谱来评估与五种不同的帕金森病相关DJ-1突变(L166P、E64D、M26I、A104T和D149A)相关的结构扰动程度。将这些数据与野生型蛋白质的数据进行比较表明,L166P突变导致蛋白质结构严重且整体不稳定并展开,而正如预期的那样,E64D突变的结构几乎未受扰动。有趣的是,其余三个突变体均表现出不同程度的结构扰动,同时伴随着蛋白质热力学稳定性的降低。观察到的结构和热力学差异可能是这些突变体与野生型之间任何功能差异的基础,而这些功能差异反过来可能是这些突变致病性的原因。
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