粒体自噬
自噬
ATG8型
帕金
细胞生物学
品脱1
泛素
视神经肽
生物
线粒体
泛素连接酶
线粒体分裂
线粒体融合
河马信号通路
生物化学
细胞凋亡
基因
病理
医学
疾病
帕金森病
作者
Koji Yamano,Reika Kikuchi,Waka Kojima,Ryota Hayashida,Fumika Koyano,Junko Kawawaki,Takuji Shoda,Yosuke Demizu,Mikihiko Naito,Keiji Tanaka,Noriyuki Matsuda
标识
DOI:10.1083/jcb.201912144
摘要
Damaged mitochondria are selectively eliminated in a process called mitophagy. Parkin and PINK1, proteins mutated in Parkinson’s disease, amplify ubiquitin signals on damaged mitochondria with the subsequent activation of autophagic machinery. Autophagy adaptors are thought to link ubiquitinated mitochondria and autophagy through ATG8 protein binding. Here, we establish methods for inducing mitophagy by mitochondria-targeted ubiquitin chains and chemical-induced mitochondrial ubiquitination. Using these tools, we reveal that the ubiquitin signal is sufficient for mitophagy and that PINK1 and Parkin are unnecessary for autophagy activation per se. Furthermore, using phase-separated fluorescent foci, we show that the critical autophagy adaptor OPTN forms a complex with ATG9A vesicles. Disruption of OPTN–ATG9A interactions does not induce mitophagy. Therefore, in addition to binding ATG8 proteins, the critical autophagy adaptors also bind the autophagy core units that contribute to the formation of multivalent interactions in the de novo synthesis of autophagosomal membranes near ubiquitinated mitochondria.
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