Institute of Genetics, Center for Molecular Medicine, Cologne Excellence Cluster on Cellular Stress Responses in Aging-Associated Diseases (CECAD), University of Cologne, Cologne, Germany.
Hum Mutat. 2010 May;31(5):617-21. doi: 10.1002/humu.21226.
An autosomal recessive form of hereditary spastic paraplegia (AR-HSP) is primarily caused by mutations in the SPG7 gene, which codes for paraplegin, a subunit of the hetero-oligomeric m-AAA protease in mitochondria. In the current study, sequencing of the SPG7 gene in the genomic DNA of 25 unrelated HSP individuals/families led to the identification of two HSP patients with compound heterozygous mutations (p.G349S/p.W583C and p.A510V/p.N739KfsX741) in the coding sequence of the SPG7 gene. We used a yeast complementation assay to evaluate the functional consequence of novel SPG7 sequence variants detected in the HSP patients. We assessed the proteolytic activity of hetero-oligomeric m-AAA proteases composed of paraplegin variant(s) and proteolytically inactive forms of AFG3L2 (AFG3L2(E575Q) or AFG3L2(K354A)) upon expression in m-AAA protease-deficient yeast cells. We demonstrate that the newly identified paraplegin variants perturb the proteolytic function of hetero-oligomeric m-AAA protease. Moreover, commonly occurring silent polymorphisms such as p.T503A and p.R688Q could be distinguished from mutations (p.G349S, p.W583C, p.A510V, and p.N739KfsX741) in our HSP cohort. The yeast complementation assay thus can serve as a reliable system to distinguish a pathogenic mutation from a silent polymorphism for any novel SPG7 sequence variant, which will facilitate the interpretation of genetic data for SPG7.
常染色体隐性遗传性痉挛性截瘫(AR-HSP)主要由 SPG7 基因突变引起,该基因编码少突胶质蛋白,是线粒体异源寡聚 m-AAA 蛋白酶的亚基。在本研究中,对 25 名无关联 HSP 个体/家系的基因组 DNA 中的 SPG7 基因进行测序,在 SPG7 基因的编码序列中发现了 2 名 HSP 患者存在复合杂合突变(p.G349S/p.W583C 和 p.A510V/p.N739KfsX741)。我们使用酵母互补测定来评估在 HSP 患者中检测到的新型 SPG7 序列变异的功能后果。我们评估了由少突胶质蛋白变异体和无蛋白水解活性的 AFG3L2 形式(AFG3L2(E575Q)或 AFG3L2(K354A))组成的异源寡聚 m-AAA 蛋白酶的蛋白水解活性,这些形式在 m-AAA 蛋白酶缺陷型酵母细胞中表达。我们证明,新鉴定的少突胶质蛋白变体破坏了异源寡聚 m-AAA 蛋白酶的蛋白水解功能。此外,常见的沉默多态性,如 p.T503A 和 p.R688Q,可以与我们的 HSP 队列中的突变(p.G349S、p.W583C、p.A510V 和 p.N739KfsX741)区分开来。因此,酵母互补测定可以作为一种可靠的系统,用于区分任何新型 SPG7 序列变体的致病突变和沉默多态性,这将有助于 SPG7 遗传数据的解释。
