Institute of Neurogenetics, University of Lübeck, Ratzeburger Allee 160, 23538, Lübeck, Germany.
Department of Neurology, University Hospital Schleswig-Holstein, Campus Lübeck, Lübeck, Germany.
Cerebellum. 2019 Aug;18(4):817-822. doi: 10.1007/s12311-019-01036-2.
While heterozygous mutations in the AFG3L2 gene have been linked to spinocerebellar ataxia 28 (SCA28), homozygous mutations in the same gene can cause spastic ataxia 5 (SPAX5). AFG3L2 encodes a mitochondrial ATP-dependent metalloprotease. We here report a SCA28 patient with biallelic AFG3L2 variants and his heterozygous mother. The patient and his mother underwent a detailed neurological examination and fibroblast lines were established. The effect of the two missense variants on mitochondria was assessed by form factor analysis and quantification of mitochondrial proteins (TOMM70, complex V). The 39-year-old index patient presented with a slowly progressive cerebellar gait disorder for 19 years, bilateral ptosis, and dysarthria. A cranial MRI showed mild cerebellar atrophy. He carried two compound-heterozygous, rare, missense variants (c.1847A>G [p.Y616C], c.2167G>A [p.V723M]) in AFG3L2, while his mother was heterozygous for the first change that had previously been described in SPAX5. Altered mitochondrial morphology and interconnectivity, together with reduced protein levels of TOMM70 and complex V (ATPase), suggest mitochondrial structural defects in the patient's fibroblasts. No significant abnormalities were found in his mother's fibroblast cultures albeit all measurements were slightly below the control level. We here present a SCA28 patient with compound-heterozygous AFG3L2 variants and demonstrate mitochondrial abnormalities in skin fibroblast cultures from this patient. Thus, AFG3L2 variants should be considered in both slowly progressive ataxias and phenotypes with clinical features reminiscent of mitochondrial disease. Of note, ptosis was present in both mutation carriers and may serve as a red flag in the diagnosis of SCA28.
虽然 AFG3L2 基因的杂合突变与脊髓小脑共济失调 28 型(SCA28)有关,但同一基因的纯合突变可导致痉挛性共济失调 5 型(SPAX5)。AFG3L2 编码一种线粒体 ATP 依赖性金属蛋白酶。我们在此报告了一例 SCA28 患者,其携带双等位基因 AFG3L2 变异,且其为杂合子的母亲也携带该变异。对患者及其母亲进行了详细的神经系统检查,并建立了成纤维细胞系。通过形态因子分析和线粒体蛋白(TOMM70、复合物 V)的定量评估了这两种错义变体对线粒体的影响。39 岁的指数患者出现了 19 年的进行性小脑步态障碍,双侧上睑下垂和构音障碍。头颅 MRI 显示轻度小脑萎缩。他携带两个复合杂合的罕见错义变异(c.1847A>G [p.Y616C],c.2167G>A [p.V723M])在 AFG3L2 中,而他的母亲则是以前在 SPAX5 中描述过的第一个变异的杂合子。改变的线粒体形态和连通性,以及 TOMM70 和复合物 V(ATPase)的蛋白水平降低,提示患者成纤维细胞中的线粒体结构缺陷。虽然所有测量值都略低于对照水平,但在他母亲的成纤维细胞培养物中未发现明显异常。我们在此报告了一例 SCA28 患者,其携带复合杂合 AFG3L2 变异,并证明该患者皮肤成纤维细胞培养物中存在线粒体异常。因此,在缓慢进展性共济失调和具有类似线粒体疾病临床特征的表型中,都应考虑 AFG3L2 变异。值得注意的是,在两个突变携带者中均出现了上睑下垂,这可能成为 SCA28 诊断的一个警示信号。
