Sahoo Bankanidhi, Arduini Irene, Drombosky Kenneth W, Kodali Ravindra, Sanders Laurie H, Greenamyre J Timothy, Wetzel Ronald
Department of Structural Biology, University of Pittsburgh School of Medicine, Pittsburgh, PA, 15260, United States of America.
Pittsburgh Institute for Neurodegenerative Diseases, University of Pittsburgh School of Medicine, Pittsburgh, PA, 15260, United States of America.
PLoS One. 2016 Jun 6;11(6):e0155747. doi: 10.1371/journal.pone.0155747. eCollection 2016.
Expansion of the polyglutamine (polyQ) track of the Huntingtin (HTT) protein above 36 is associated with a sharply enhanced risk of Huntington's disease (HD). Although there is general agreement that HTT toxicity resides primarily in N-terminal fragments such as the HTT exon1 protein, there is no consensus on the nature of the physical states of HTT exon1 that are induced by polyQ expansion, nor on which of these states might be responsible for toxicity. One hypothesis is that polyQ expansion induces an alternative, toxic conformation in the HTT exon1 monomer. Alternative hypotheses posit that the toxic species is one of several possible aggregated states. Defining the nature of the toxic species is particularly challenging because of facile interconversion between physical states as well as challenges to identifying these states, especially in vivo. Here we describe the use of fluorescence correlation spectroscopy (FCS) to characterize the detailed time and repeat length dependent self-association of HTT exon1-like fragments both with chemically synthesized peptides in vitro and with cell-produced proteins in extracts and in living cells. We find that, in vitro, mutant HTT exon1 peptides engage in polyQ repeat length dependent dimer and tetramer formation, followed by time dependent formation of diffusible spherical and fibrillar oligomers and finally by larger, sedimentable amyloid fibrils. For expanded polyQ HTT exon1 expressed in PC12 cells, monomers are absent, with tetramers being the smallest molecular form detected, followed in the incubation time course by small, diffusible aggregates at 6-9 hours and larger, sedimentable aggregates that begin to build up at 12 hrs. In these cell cultures, significant nuclear DNA damage appears by 6 hours, followed at later times by caspase 3 induction, mitochondrial dysfunction, and cell death. Our data thus defines limits on the sizes and concentrations of different physical states of HTT exon1 along the reaction profile in the context of emerging cellular distress. The data provide some new candidates for the toxic species and some new reservations about more well-established candidates. Compared to other known markers of HTT toxicity, nuclear DNA damage appears to be a relatively early pathological event.
亨廷顿蛋白(HTT)的聚谷氨酰胺(polyQ)链扩展至36以上与亨廷顿舞蹈病(HD)风险急剧增加相关。尽管人们普遍认为HTT毒性主要存在于N端片段,如HTT外显子1蛋白,但对于polyQ扩展诱导的HTT外显子1物理状态的性质,以及这些状态中哪一种可能导致毒性,尚无共识。一种假说是,polyQ扩展在HTT外显子1单体中诱导出一种替代性的毒性构象。其他假说则认为,毒性物质是几种可能的聚集状态之一。由于物理状态之间易于相互转换,以及识别这些状态存在挑战,尤其是在体内,确定毒性物质的性质极具挑战性。在此,我们描述了利用荧光相关光谱(FCS)来表征HTT外显子1样片段在体外与化学合成肽以及在提取物和活细胞中与细胞产生的蛋白质的详细时间和重复长度依赖性自缔合。我们发现,在体外,突变的HTT外显子1肽参与polyQ重复长度依赖性二聚体和四聚体形成,随后是时间依赖性的可扩散球形和纤维状寡聚体形成,最终形成更大的、可沉降的淀粉样纤维。对于在PC12细胞中表达的扩展polyQ的HTT外显子1,不存在单体,四聚体是检测到的最小分子形式,在孵育时间进程中,6 - 9小时出现小的、可扩散的聚集体,12小时开始出现更大的、可沉降的聚集体。在这些细胞培养物中,6小时时出现明显的核DNA损伤,随后在较晚时间出现半胱天冬酶3诱导、线粒体功能障碍和细胞死亡。因此,我们的数据确定了在细胞出现应激情况下,HTT外显子1不同物理状态的大小和浓度限制。这些数据为毒性物质提供了一些新的候选物,并对一些已确立的候选物提出了一些新的疑问。与其他已知的HTT毒性标志物相比,核DNA损伤似乎是一个相对较早的病理事件。
