Department of Neuropathology, University of Tübingen, Calwerstr 3, 72076 Tübingen, Germany; DZNE, German Center for Neurodegenerative Diseases, Paul-Ehrlich-Str. 15-17, 72076 Tübingen, Germany.
Rev Neurol (Paris). 2013 Oct;169(10):793-8. doi: 10.1016/j.neurol.2013.07.019. Epub 2013 Sep 5.
In the last years, new disease proteins and genes have been identified in frontotemporal lobar degeneration (FTLD) and amyotrophic lateral sclerosis (ALS), leading to a dramatic shift in our understanding of the molecular mechanisms underlying both conditions. The vast majority of FTLD and ALS are characterized by the abnormal accumulation of TDP-43, including genetic forms associated with mutations in the genes C9ORF72, GRN, TARDBP and VCP. The overlap in pathology and of genetic factors, particularly C9ORF72 as common cause of ALS and FTLD, provides molecular evidence that both conditions represent a spectrum of diseases sharing similar pathomechanisms. Accumulation of the protein FUS defines another subset of FTLD and ALS. However, here some striking differences have been identified. All members of the FET family (FUS, EWS, TAF15) are co-accumulating with their nuclear import receptor Transportin in FTLD-FUS which is usually not associated with FUS mutations, whilst ALS-FUS is almost always associated with FUS mutations and reveals only FUS aggregates. Together with recent data demonstrating differences in the arginine methylation status of FUS in FTLD-FUS and ALS-FUS, these findings strongly imply at least partially distinct underlying disease mechanisms in these molecular subtypes of ALS and FTLD.
在过去的几年中,额颞叶痴呆(FTLD)和肌萎缩侧索硬化症(ALS)中已经鉴定出了新的疾病蛋白和基因,这导致我们对这两种疾病的分子机制的理解发生了重大转变。绝大多数 FTLD 和 ALS 的特征是 TDP-43 的异常积累,包括与 C9ORF72、GRN、TARDBP 和 VCP 基因突变相关的遗传形式。病理学和遗传因素的重叠,特别是 C9ORF72 作为 ALS 和 FTLD 的常见原因,提供了分子证据,表明这两种疾病代表了具有相似病理机制的一系列疾病。蛋白 FUS 的积累定义了 FTLD 和 ALS 的另一个亚组。然而,这里已经确定了一些显著的差异。FET 家族的所有成员(FUS、EWS、TAF15)都与它们的核输入受体 Transportin 在 FTLD-FUS 中共积累,通常与 FUS 突变无关,而 ALS-FUS 几乎总是与 FUS 突变相关,并仅显示 FUS 聚集。结合最近的数据表明,FTLD-FUS 和 ALS-FUS 中 FUS 的精氨酸甲基化状态存在差异,这些发现强烈暗示了这些 ALS 和 FTLD 的分子亚型中至少存在部分不同的潜在疾病机制。
