Ruparelia Avnika A, Oorschot Viola, Ramm Georg, Bryson-Richardson Robert J
School of Biological Sciences.
The Clive and Vera Ramaciotti Centre for Structural Cryo-Electron Microscopy and and.
Hum Mol Genet. 2016 Jun 1;25(11):2131-2142. doi: 10.1093/hmg/ddw080. Epub 2016 Mar 11.
Myofibrillar myopathy is a progressive muscle disease characterized by the disintegration of muscle fibers and formation of protein aggregates. Causative mutations have been identified in nine genes encoding Z-disk proteins, including the actin binding protein filamin C (FLNC). To investigate the mechanism of disease in FLNC myopathy we overexpressed fluorescently tagged FLNC or FLNC in zebrafish. Expression of FLNC causes formation of protein aggregates but surprisingly, our studies reveal that the mutant protein localizes correctly to the Z-disk and is capable of rescuing the fiber disintegration phenotype that results from FLNC knockdown. This demonstrates that the functions necessary for muscle integrity are not impaired, and suggests that it is the formation of protein aggregates and subsequent sequestration of FLNC away from the Z-disk that results in myofibrillar disintegration. Similar to those found in patients, the aggregates in FLNC expressing fish contain the co-chaperone BAG3. FLNC is a target of the BAG3-mediated chaperone assisted selective autophagy (CASA) pathway and therefore we investigated its role, and the role of autophagy in general, in clearing protein aggregates. We reveal that despite BAG3 recruitment to the aggregates they are not degraded via CASA. Additionally, recruitment of BAG3 is sufficient to block alternative autophagy pathways which would otherwise clear the aggregates. This blockage can be relieved by reducing BAG3 levels or by stimulating autophagy. This study therefore identifies both BAG3 reduction and autophagy promotion as potential therapies for FLNC myofibrillar myopathy, and identifies protein insufficiency due to sequestration, compounded by impaired autophagy, as the cause.
肌原纤维肌病是一种进行性肌肉疾病,其特征是肌纤维解体和蛋白质聚集体形成。已在九个编码Z盘蛋白的基因中鉴定出致病突变,包括肌动蛋白结合蛋白细丝蛋白C(FLNC)。为了研究FLNC肌病的发病机制,我们在斑马鱼中过表达荧光标记的FLNC或FLNC。FLNC的表达导致蛋白质聚集体的形成,但令人惊讶的是,我们的研究表明,突变蛋白正确定位于Z盘,并且能够挽救因FLNC敲低而导致的纤维解体表型。这表明肌肉完整性所需的功能没有受损,并表明是蛋白质聚集体的形成以及随后FLNC从Z盘的隔离导致了肌原纤维解体。与在患者中发现的情况类似,表达FLNC的鱼中的聚集体含有共伴侣蛋白BAG3。FLNC是BAG3介导的伴侣辅助选择性自噬(CASA)途径的靶标,因此我们研究了其在清除蛋白质聚集体中的作用以及自噬的一般作用。我们发现,尽管BAG3被募集到聚集体中,但它们并未通过CASA降解。此外,BAG3的募集足以阻断否则会清除聚集体的替代自噬途径。通过降低BAG3水平或刺激自噬可以缓解这种阻断。因此,这项研究确定降低BAG3水平和促进自噬都是FLNC肌原纤维肌病的潜在治疗方法,并确定由于隔离导致的蛋白质不足,再加上自噬受损,是病因。
