Junko Ishii scite author profile

Autophagy is a non‐selective bulk degradation process in which isolation membranes enclose a portion of cytoplasm to form double‐membrane vesicles, called autophagosomes, and deliver their inner constituents to the lytic compartments. Recent studies have also shed light on another mode of autophagy that selectively degrades various targets. Yeast Atg8 and its mammalian homologue LC3 are ubiquitin‐like modifiers that are localized on isolation membranes and play crucial roles in the formation of autophagosomes. These proteins are also involved in selective incorporation of specific cargo molecules into autophagosomes, in which Atg8 and LC3 interact with Atg19 and p62, receptor proteins for vacuolar enzymes and disease‐related protein aggregates, respectively. Using X‐ray crystallography and NMR, we herein report the structural basis for Atg8–Atg19 and LC3–p62 interactions. Remarkably, Atg8 and LC3 were shown to interact with Atg19 and p62, respectively, in a quite similar manner: they recognized the side‐chains of Trp and Leu in a four‐amino acid motif, WXXL, in Atg19 and p62 using hydrophobic pockets conserved among Atg8 homologues. Together with mutational analyses, our results show the fundamental mechanism that allows Atg8 homologues, in association with WXXL‐containing proteins, to capture specific cargo molecules, thereby endowing isolation membranes and/or their assembly machineries with target selectivity.

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Evidence for an Oscillatory Signature in Atmospheric Neutrino Oscillations

Ashie¹,

Hosaka²,

Ishihara³

et al. 2004

Phys. Rev. Lett.

574

211

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Atg4 recycles inappropriately lipidated Atg8 to promote autophagosome biogenesis

et al. 2012

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Atg8 is a ubiquitin-like protein required for autophagy in the budding yeast Saccharomyces cerevisiae. A ubiquitin-like system mediates the conjugation of the C terminus of Atg8 to the lipid phosphatidylethanolamine (PE), and this conjugate (Atg8-PE) plays a crucial role in autophagosome formation at the phagophore assembly site/pre-autophagosomal structure (PAS). The cysteine protease Atg4 processes the C terminus of newly synthesized Atg8 and also delipidates Atg8 to release the protein from membranes. While the former is a prerequisite for lipidation of Atg8, the significance of the latter in autophagy has remained unclear. Here, we show that autophagosome formation is significantly retarded in cells deficient for Atg4-mediated delipidation of Atg8. We find that Atg8-PE accumulates on various organelle membranes including the vacuole, the endosome and the ER in these cells, which depletes unlipidated Atg8 and thereby attenuates its localization to the PAS. Our results suggest that the Atg8-PE that accumulates on organelle membranes is erroneously produced by lipidation system components independently of the normal autophagic process. It is also suggested that delipidation of Atg8 by Atg4 on different organelle membranes promotes autophagosome formation. Considered together with other results, we propose that Atg4 acts to compensate for the intrinsic defect in the lipidation system; it recycles Atg8-PE generated on inappropriate membranes to maintain a reservoir of unlipidated Atg8 that is required for autophagosome formation at the PAS.

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Junko Ishii

Measurement of atmospheric neutrino oscillation parameters by Super-Kamiokande I

Structural basis of target recognition by Atg8/LC3 during selective autophagy

Evidence for an Oscillatory Signature in Atmospheric Neutrino Oscillations

Atg4 recycles inappropriately lipidated Atg8 to promote autophagosome biogenesis

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