Pathophysiology of protein aggregation and extended phenotyping in filaminopathy

菲拉明 肌病 生物 蛋白质聚集 突变 结蛋白 细胞生物学 肌原纤维 移码突变 遗传学 生物化学 细胞骨架 免疫学 基因 波形蛋白 免疫组织化学 细胞
作者
Rudolf A. Kley,Piraye Oflazer,Yvonne Leber,Zagaa Odgerel,Peter F. M. van der Ven,Montse Olivé,Isidró Ferrer,Adekunle Onipe,Mariya Mihaylov,Juan M. Bilbao,Hee S. Lee,Jörg Höhfeld,Kristina Djinović‐Carugo,Kester Kong,Martin Tegenthoff,Sören Peters,Werner Stenzel,Matthias Vorgerd,Lev G. Goldfarb,Dieter O. Fürst
出处
期刊:Brain [Oxford University Press]
卷期号:135 (9): 2642-2660 被引量:81
标识
DOI:10.1093/brain/aws200
摘要

Mutations in FLNC cause two distinct types of myopathy. Disease associated with mutations in filamin C rod domain leading to expression of a toxic protein presents with progressive proximal muscle weakness and shows focal destructive lesions of polymorphous aggregates containing desmin, myotilin and other proteins in the affected myofibres; these features correspond to the profile of myofibrillar myopathy. The second variant associated with mutations in the actin-binding domain of filamin C is characterized by weakness of distal muscles and morphologically by non-specific myopathic features. A frameshift mutation in the filamin C rod domain causing haploinsufficiency was also found responsible for distal myopathy with some myofibrillar changes but no protein aggregation typical of myofibrillar myopathies. Controversial data accumulating in the literature require re-evaluation and comparative analysis of phenotypes associated with the position of the FLNC mutation and investigation of the underlying disease mechanisms. This is relevant and necessary for the refinement of diagnostic criteria and developing therapeutic approaches. We identified a p.W2710X mutation in families originating from ethnically diverse populations and re-evaluated a family with a p.V930_T933del mutation. Analysis of the expanded database allows us to refine clinical and myopathological characteristics of myofibrillar myopathy caused by mutations in the rod domain of filamin C. Biophysical and biochemical studies indicate that certain pathogenic mutations in FLNC cause protein misfolding, which triggers aggregation of the mutant filamin C protein and subsequently involves several other proteins. Immunofluorescence analyses using markers for the ubiquitin–proteasome system and autophagy reveal that the affected muscle fibres react to protein aggregate formation with a highly increased expression of chaperones and proteins involved in proteasomal protein degradation and autophagy. However, there is a noticeably diminished efficiency of both the ubiquitin–proteasome system and autophagy that impairs the muscle capacity to prevent the formation or mediate the degradation of aggregates. Transfection studies of cultured muscle cells imitate events observed in the patient's affected muscle and therefore provide a helpful model for testing future therapeutic strategies.
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