COPII mitigates ER stress by promoting formation of ER whorls

COPII mitigates ER stress by promoting formation of ER whorls

Cells mitigate ER stress through the unfolded protein response (UPR). Here, we report formation of ER whorls as an effector mechanism of the ER stress response. We found that strong ER stress induces formation of ER whorls, which contain ER-resident proteins such as the Sec61 complex and PKR-like ER...

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Veröffentlicht in:Cell research 2021-02, Vol.31 (2), p.141-156
Hauptverfasser: Xu, Fang, Du, Wanqing, Zou, Qin, Wang, Yuting, Zhang, Xin, Xing, Xudong, Li, Ying, Zhang, Dachuan, Wang, Huimin, Zhang, Wenhao, Hu, Xinyao, Liu, Xin, Liu, Xiaoling, Zhang, Shaojin, Yu, Jinqiang, Fang, Jianhuo, Li, Fajin, Zhou, Ying, Yue, Tieqiang, Mi, Na, Deng, Haiteng, Zou, Peng, Chen, Xiaowei, Yang, Xuerui, Yu, Li
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Sprache:eng
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Animals
B-Lymphocytes - metabolism
Biomedical and Life Sciences
Cell Biology
eIF-2 Kinase - genetics
eIF-2 Kinase - metabolism
Endoplasmic Reticulum - metabolism
Endoplasmic Reticulum Stress - genetics
Epithelial Cells - metabolism
Gene Knockout Techniques - methods
HEK293 Cells
Humans
Kinases
Life Sciences
Mice
Phosphorylation - genetics
Precursors
Protein Biosynthesis - genetics
Protein folding
Proteins
R-SNARE Proteins - genetics
R-SNARE Proteins - metabolism
Rats
SEC Translocation Channels - genetics
SEC Translocation Channels - metabolism
Sequestering
Signal Transduction - genetics
Transfection
Unfolded Protein Response
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Zusammenfassung:Cells mitigate ER stress through the unfolded protein response (UPR). Here, we report formation of ER whorls as an effector mechanism of the ER stress response. We found that strong ER stress induces formation of ER whorls, which contain ER-resident proteins such as the Sec61 complex and PKR-like ER kinase (PERK). ER whorl formation is dependent on PERK kinase activity and is mediated by COPII machinery, which facilitates ER membrane budding to form tubular-vesicular ER whorl precursors. ER whorl precursors then go through Sec22b-mediated fusion to form ER whorls. We further show that ER whorls contribute to ER stress-induced translational inhibition by possibly modulating PERK activity and by sequestering translocons in a ribosome-free environment. We propose that formation of ER whorls reflects a new type of ER stress response that controls inhibition of protein translation.
ISSN:1001-0602
1748-7838
DOI:10.1038/s41422-020-00416-2