Department of Cell and Molecular Biology, Northwestern University Feinberg School of Medicine, Chicago, Illinois 60611, USA.
J Clin Invest. 2013 May;123(5):1964-75. doi: 10.1172/JCI66387. Epub 2013 Apr 15.
Giant axonal neuropathy (GAN) is an early-onset neurological disorder caused by mutations in the GAN gene (encoding for gigaxonin), which is predicted to be an E3 ligase adaptor. In GAN, aggregates of intermediate filaments (IFs) represent the main pathological feature detected in neurons and other cell types, including patients' dermal fibroblasts. The molecular mechanism by which these mutations cause IFs to aggregate is unknown. Using fibroblasts from patients and normal individuals, as well as Gan-/- mice, we demonstrated that gigaxonin was responsible for the degradation of vimentin IFs. Gigaxonin was similarly involved in the degradation of peripherin and neurofilament IF proteins in neurons. Furthermore, proteasome inhibition by MG-132 reversed the clearance of IF proteins in cells overexpressing gigaxonin, demonstrating the involvement of the proteasomal degradation pathway. Together, these findings identify gigaxonin as a major factor in the degradation of cytoskeletal IFs and provide an explanation for IF aggregate accumulation, the subcellular hallmark of this devastating human disease.
巨轴索神经病(GAN)是一种由 GAN 基因(编码 gigaxonin)突变引起的早发性神经疾病,该基因预计是一种 E3 连接酶衔接蛋白。在 GAN 中,中间丝(IFs)的聚集体代表了在神经元和其他细胞类型(包括患者的皮肤成纤维细胞)中检测到的主要病理特征。这些突变导致 IF 聚集的分子机制尚不清楚。我们使用来自患者和正常人以及 Gan-/- 小鼠的成纤维细胞证明,gigaxonin 负责降解波形蛋白 IF。gigaxonin 同样参与神经元中 peripherin 和神经丝 IF 蛋白的降解。此外,MG-132 抑制蛋白酶体可逆转过表达 gigaxonin 的细胞中 IF 蛋白的清除,表明涉及蛋白酶体降解途径。总之,这些发现将 gigaxonin 确定为细胞骨架 IF 降解的主要因素,并为这种破坏性人类疾病的亚细胞标志 IF 聚集体积累提供了解释。