Decoding the molecular mechanism of selective autophagy of glycogen mediated by autophagy receptor STBD1.

IF 9.4 1区 综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES Proceedings of the National Academy of Sciences of the United States of America Pub Date : 2024-09-10 Epub Date: 2024-09-05 DOI:10.1073/pnas.2402817121
Yuchao Zhang, Yishan Sun, Jungang Shi, Peng Xu, Yingli Wang, Jianping Liu, Xinyu Gong, Yaru Wang, Yubin Tang, Haobo Liu, Xindi Zhou, Zhiqiao Lin, Otto Baba, Tsuyoshi Morita, Biao Yu, Lifeng Pan
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Abstract

Autophagy of glycogen (glycophagy) is crucial for the maintenance of cellular glucose homeostasis and physiology in mammals. STBD1 can serve as an autophagy receptor to mediate glycophagy by specifically recognizing glycogen and relevant key autophagic factors, but with poorly understood mechanisms. Here, we systematically characterize the interactions of STBD1 with glycogen and related saccharides, and determine the crystal structure of the STBD1 CBM20 domain with maltotetraose, uncovering a unique binding mode involving two different oligosaccharide-binding sites adopted by STBD1 CBM20 for recognizing glycogen. In addition, we demonstrate that the LC3-interacting region (LIR) motif of STBD1 can selectively bind to six mammalian ATG8 family members. We elucidate the detailed molecular mechanism underlying the selective interactions of STBD1 with ATG8 family proteins by solving the STBD1 LIR/GABARAPL1 complex structure. Importantly, our cell-based assays reveal that both the STBD1 LIR/GABARAPL1 interaction and the intact two oligosaccharide binding sites of STBD1 CBM20 are essential for the effective association of STBD1, GABARAPL1, and glycogen in cells. Finally, through mass spectrometry, biochemical, and structural modeling analyses, we unveil that STBD1 can directly bind to the Claw domain of RB1CC1 through its LIR, thereby recruiting the key autophagy initiation factor RB1CC1. In all, our findings provide mechanistic insights into the recognitions of glycogen, ATG8 family proteins, and RB1CC1 by STBD1 and shed light on the potential working mechanism of STBD1-mediated glycophagy.

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解码自噬受体 STBD1 介导的糖原选择性自噬的分子机制。
糖原的自噬(glycophagy)对于维持哺乳动物细胞的葡萄糖平衡和生理机能至关重要。STBD1 可作为一种自噬受体,通过特异性识别糖原和相关的关键自噬因子来介导糖吞噬,但其机制却鲜为人知。在这里,我们系统地描述了 STBD1 与糖原及相关糖类的相互作用,并确定了 STBD1 CBM20 结构域与麦芽四糖的晶体结构,揭示了 STBD1 CBM20 识别糖原的独特结合模式,包括两个不同的寡糖结合位点。此外,我们还证明了 STBD1 的 LC3 结合区(LIR)基团可选择性地与哺乳动物 ATG8 家族的六个成员结合。我们通过解析 STBD1 LIR/GABARAPL1 复合物结构,阐明了 STBD1 与 ATG8 家族蛋白选择性相互作用的详细分子机制。重要的是,我们基于细胞的实验揭示了 STBD1 LIR/GABARAPL1 的相互作用以及 STBD1 CBM20 的两个完整的寡糖结合位点对于 STBD1、GABARAPL1 和糖原在细胞中的有效结合至关重要。最后,通过质谱、生化和结构模型分析,我们揭示了 STBD1 可通过其 LIR 直接与 RB1CC1 的 Claw 结构域结合,从而招募关键的自噬启动因子 RB1CC1。总之,我们的发现为 STBD1 识别糖原、ATG8 家族蛋白和 RB1CC1 提供了机理上的见解,并揭示了 STBD1 介导的糖吞噬的潜在工作机制。
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来源期刊
CiteScore
19.00
自引率
0.90%
发文量
3575
审稿时长
2.5 months
期刊介绍: The Proceedings of the National Academy of Sciences (PNAS), a peer-reviewed journal of the National Academy of Sciences (NAS), serves as an authoritative source for high-impact, original research across the biological, physical, and social sciences. With a global scope, the journal welcomes submissions from researchers worldwide, making it an inclusive platform for advancing scientific knowledge.
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