Neurodegenerative disease-associated inclusion bodies are cleared by selective autophagy in budding yeast.

Autophagy reports Pub Date : 2023-01-01 Epub Date: 2023-08-07 DOI:10.1080/27694127.2023.2236407
Austin Folger, Chuan Chen, Marie-Helene Kabbaj, Karina Frey, Yanchang Wang
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Abstract

Protein misfolding, aggregation, and accumulation cause neurodegenerative disorders. One such disorder, Huntington's disease, is caused by an increased number of glutamine-encoding trinucleotide repeats CAG in the first exon of the huntingtin (HTT) gene. Mutant proteins of Htt exon 1 with polyglutamine expansion are prone to aggregation and form pathological inclusion bodies in neurons. Extensive studies have shown that misfolded proteins are cleared by the ubiquitin-proteasome system or autophagy to alleviate their cytotoxicity. Misfolded proteins can form small soluble aggregates or large insoluble inclusion bodies. Previous works have elucidated the role of autophagy in the clearance of misfolded protein aggregates, but autophagic clearance of inclusion bodies remains poorly characterized. Here we use mutant Htt exon 1 with 103 polyglutamine (Htt103QP) as a model substrate to study the autophagic clearance of inclusion bodies in budding yeast. We found that the core autophagy-related proteins were required for Htt103QP inclusion body autophagy. Moreover, our evidence indicates that the autophagy of Htt103QP inclusion bodies is selective. Interestingly, Cue5/Tollip, a known autophagy receptor for aggrephagy, is dispensable for this inclusion body autophagy. From the known selective autophagy receptors in budding yeast, we identified three that are essential for inclusion body autophagy. Amyloid beta peptide (Aβ42) is a major component of amyloid plaques found in Alzheimer's disease brains. Interestingly, a similar selective autophagy pathway contributes to the clearance of Aβ42 inclusion bodies in budding yeast. Therefore, our results reveal a novel autophagic pathway specific for inclusion bodies associated with neurodegenerative diseases, which we have termed IBophagy.

神经退行性疾病相关的包涵体在芽殖酵母中通过选择性自噬清除。
蛋白质的错误折叠、聚集和堆积会导致神经退行性疾病。亨廷顿氏病就是由亨廷丁(HTT)基因第一外显子中谷氨酰胺编码三核苷酸重复序列 CAG 数量增加引起的。多谷氨酰胺扩增的 Htt 第 1 外显子突变蛋白容易聚集,并在神经元中形成病理性包涵体。大量研究表明,错误折叠的蛋白质会被泛素-蛋白酶体系统或自噬作用清除,以减轻其细胞毒性。错误折叠的蛋白质可以形成小的可溶性聚集体或大的不溶性包涵体。以前的研究已经阐明了自噬在清除错误折叠蛋白聚集体中的作用,但自噬清除包涵体的作用还不十分明确。在这里,我们以突变体 Htt 外显子 1 的 103 多聚谷氨酰胺(Htt103QP)为模型底物,研究芽殖酵母中包涵体的自噬清除。我们发现,Htt103QP包涵体的自噬需要与自噬相关的核心蛋白。此外,我们的证据表明,Htt103QP包涵体的自噬是有选择性的。有趣的是,Cue5/Tollip--一种已知的凝集自噬受体--对这种包涵体自噬是不可或缺的。从已知的芽殖酵母选择性自噬受体中,我们发现了三种对包涵体自噬至关重要的受体。淀粉样β肽(Aβ42)是阿尔茨海默病大脑中淀粉样斑块的主要成分。有趣的是,在芽殖酵母中,类似的选择性自噬途径有助于清除 Aβ42 包涵体。因此,我们的研究结果揭示了一种针对与神经退行性疾病相关的包涵体的新型自噬途径,我们称之为 IBophagy。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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