Atg2的PE结合N端结构域的晶体结构

IF 16.8 1区生物学

Nature Structural &Molecular Biology Pub Date : 2019-03-20 DOI:10.2210/PDB6A9J/PDB

T. Osawa, T. Kotani, Tatsuya Kawaoka, Eri Hirata, Kuninori Suzuki, H. Nakatogawa, Y. Ohsumi, N. Noda

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引用次数: 31

摘要

自噬中的一个关键事件是自噬体的形成，新合成的分离膜（IM）利用内膜衍生的脂质膨胀形成完整的自噬体。Atg2将扩张的IM边缘与内质网（ER）物理连接，内质网对自噬体的形成至关重要。然而，Atg2在ER–IM接触过程中的分子功能仍不清楚，脂质输送到IM的机制也不清楚。在这里，我们发现pombe裂殖酵母Atg2的保守氨基末端区域包括一个类似脂质转移蛋白的疏水腔，该疏水腔容纳磷脂酰基链。Atg2桥接高度弯曲的脂质体，从而促进体外有效的磷脂转移，这一功能被体内损害自噬体形成的突变所抑制。这些结果表明，Atg2作为一种脂质转移蛋白，为自噬体的形成提供磷脂。结构和生物化学数据表明，必需的自噬蛋白Atg2作为一种脂质转移蛋白，将磷脂从来源细胞器（尤其是内质网）供应到分离膜（IM）以形成自噬体。

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Crystal structure of the PE-bound N-terminal domain of Atg2

A key event in autophagy is autophagosome formation, whereby the newly synthesized isolation membrane (IM) expands to form a complete autophagosome using endomembrane-derived lipids. Atg2 physically links the edge of the expanding IM with the endoplasmic reticulum (ER), a role that is essential for autophagosome formation. However, the molecular function of Atg2 during ER–IM contact remains unclear, as does the mechanism of lipid delivery to the IM. Here we show that the conserved amino-terminal region of Schizosaccharomyces pombe Atg2 includes a lipid-transfer-protein-like hydrophobic cavity that accommodates phospholipid acyl chains. Atg2 bridges highly curved liposomes, thereby facilitating efficient phospholipid transfer in vitro, a function that is inhibited by mutations that impair autophagosome formation in vivo. These results suggest that Atg2 acts as a lipid-transfer protein that supplies phospholipids for autophagosome formation. Structural and biochemical data suggest that the essential autophagy protein Atg2 acts as a lipid-transfer protein that supplies phospholipids from the source organelle (especially the ER) to the isolation membranes (IMs) for autophagosome formation.

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来源期刊

Nature Structural &Molecular Biology 生物-生化与分子生物学

自引率

1.80%

发文量

160

期刊介绍： Nature Structural & Molecular Biology is a monthly journal that focuses on the functional and mechanistic understanding of how molecular components in a biological process work together. It serves as an integrated forum for structural and molecular studies. The journal places a strong emphasis on the functional and mechanistic understanding of how molecular components in a biological process work together. Some specific areas of interest include the structure and function of proteins, nucleic acids, and other macromolecules, DNA replication, repair and recombination, transcription, regulation of transcription and translation, protein folding, processing and degradation, signal transduction, and intracellular signaling.