PEX5 通过饥饿状态下的 mTORC1-TFEB 轴调节自噬。

PEX5 regulates autophagy via the mTORC1-TFEB axis during starvation.

机构信息

Department of Microbiology and Center for Metabolic Function Regulation, Wonkwang University School of Medicine, Iksan, Jeonbuk, 54538, Republic of Korea.

Department of Biomedical Science & Engineering, Institute of Integrated Technology, Gwangju Institute of Science & Technology, Gwangju, 61005, Republic of Korea.

出版信息

Exp Mol Med. 2018 Apr 6;50(4):1-12. doi: 10.1038/s12276-017-0007-8.

DOI:10.1038/s12276-017-0007-8

PMID:29622767

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5938032/

Abstract

Defects in the PEX5 gene impair the import of peroxisomal matrix proteins, leading to nonfunctional peroxisomes and other associated pathological defects such as Zellweger syndrome. Although PEX5 regulates autophagy process in a stress condition, the mechanisms controlling autophagy by PEX5 under nutrient deprivation are largely unknown. Herein, we show a novel function of PEX5 in the regulation of autophagy via Transcription Factor EB (TFEB). Under serum-starved conditions, when PEX5 is depleted, the mammalian target of rapamycin (mTORC1) inhibitor TSC2 is downregulated, which results in increased phosphorylation of the mTORC1 substrates, including 70S6K, S6K, and 4E-BP-1. mTORC1 activation further suppresses the nuclear localization of TFEB, as indicated by decreased mRNA levels of TFEB, LIPA, and LAMP1. Interestingly, peroxisomal mRNA and protein levels are also reduced by TFEB inactivation, indicating that TFEB might control peroxisome biogenesis at a transcriptional level. Conversely, pharmacological inhibition of mTOR resulting from PEX5 depletion during nutrient starvation activates TFEB by promoting nuclear localization of the protein. In addition, mTORC1 inhibition recovers the damaged-peroxisome biogenesis. These data suggest that PEX5 may be a critical regulator of lysosomal gene expression and autophagy through the mTOR-TFEB-autophagy axis under nutrient deprivation.

摘要

PEX5 基因缺陷会损害过氧化物酶体基质蛋白的输入，导致过氧化物酶体功能失调和其他相关的病理缺陷，如 Zellweger 综合征。虽然 PEX5 在应激条件下调节自噬过程，但在营养缺乏下 PEX5 控制自噬的机制在很大程度上尚不清楚。本文展示了 PEX5 通过转录因子 EB（TFEB）在调节自噬中的一个新功能。在血清饥饿条件下，当 PEX5 被耗尽时，雷帕霉素靶蛋白复合物 1（mTORC1）抑制剂 TSC2 下调，导致 mTORC1 底物的磷酸化增加，包括 70S6K、S6K 和 4E-BP-1。mTORC1 的激活进一步抑制了 TFEB 的核定位，这表明 TFEB 的 mRNA 水平，如 LIPA 和 LAMP1 降低。有趣的是，过氧化物酶体的 mRNA 和蛋白水平也因 TFEB 失活而降低，表明 TFEB 可能在转录水平上控制过氧化物酶体的生物发生。相反，在营养饥饿期间通过 PEX5 耗尽导致的 mTOR 的药理学抑制通过促进蛋白的核定位来激活 TFEB。此外，mTORC1 的抑制恢复了受损的过氧化物酶体生物发生。这些数据表明，PEX5 可能是营养缺乏条件下通过 mTOR-TFEB-自噬轴调节溶酶体基因表达和自噬的关键调节剂。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/af14/5938032/36d3b21294ce/12276_2017_7_Fig1_HTML.jpg

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PEX5 通过饥饿状态下的 mTORC1-TFEB 轴调节自噬。

PEX5 regulates autophagy via the mTORC1-TFEB axis during starvation.

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