The PERK Branch of the Unfolded Protein Response Safeguards Protein Homeostasis and Mesendoderm Specification of Human Pluripotent Stem Cells

Fang Liu; Zhun Liu; Weisheng Cheng; Qingquan Zhao; Xinyu Zhang; He Zhang; Miao Yu; He Xu; Yichen Gao; Qianrui Jiang; Guojun Shi; Likun Wang; Shanshan Gu; Jia Wang; Nan Cao; Zhongyan Chen

doi:10.1002/advs.202303799

Advanced Science (Dec 2023)

The PERK Branch of the Unfolded Protein Response Safeguards Protein Homeostasis and Mesendoderm Specification of Human Pluripotent Stem Cells

Fang Liu,
Zhun Liu,
Weisheng Cheng,
Qingquan Zhao,
Xinyu Zhang,
He Zhang,
Miao Yu,
He Xu,
Yichen Gao,
Qianrui Jiang,
Guojun Shi,
Likun Wang,
Shanshan Gu,
Jia Wang,
Nan Cao,
Zhongyan Chen

Affiliations

Fang Liu: Advanced Medical Technology Center Zhongshan School of Medicine and the First Affiliated Hospital Sun Yat‐Sen University Guangzhou 510080 P. R. China
Zhun Liu: Advanced Medical Technology Center Zhongshan School of Medicine and the First Affiliated Hospital Sun Yat‐Sen University Guangzhou 510080 P. R. China
Weisheng Cheng: Prenatal Diagnosis Center Department of Obstetrics and Gynecology The First Affiliated Hospital of Anhui Medical University Hefei 230022 P. R. China
Qingquan Zhao: Advanced Medical Technology Center Zhongshan School of Medicine and the First Affiliated Hospital Sun Yat‐Sen University Guangzhou 510080 P. R. China
Xinyu Zhang: Advanced Medical Technology Center Zhongshan School of Medicine and the First Affiliated Hospital Sun Yat‐Sen University Guangzhou 510080 P. R. China
He Zhang: Advanced Medical Technology Center Zhongshan School of Medicine and the First Affiliated Hospital Sun Yat‐Sen University Guangzhou 510080 P. R. China
Miao Yu: Advanced Medical Technology Center Zhongshan School of Medicine and the First Affiliated Hospital Sun Yat‐Sen University Guangzhou 510080 P. R. China
He Xu: Advanced Medical Technology Center Zhongshan School of Medicine and the First Affiliated Hospital Sun Yat‐Sen University Guangzhou 510080 P. R. China
Yichen Gao: Advanced Medical Technology Center Zhongshan School of Medicine and the First Affiliated Hospital Sun Yat‐Sen University Guangzhou 510080 P. R. China
Qianrui Jiang: Advanced Medical Technology Center Zhongshan School of Medicine and the First Affiliated Hospital Sun Yat‐Sen University Guangzhou 510080 P. R. China
Guojun Shi: Guangzhou Municipal Key Laboratory of Mechanistic and Translational Obesity Research Guangdong Provincial Key Laboratory of Diabetology The Third Affiliated Hospital of Sun Yat‐Sen University Guangdong 510080 P. R. China
Likun Wang: National Laboratory of Biomacromolecules CAS Center for Excellence in Biomacromolecules Institute of Biophysics Chinese Academy of Sciences Beijing 100101 P. R. China
Shanshan Gu: Advanced Medical Technology Center Zhongshan School of Medicine and the First Affiliated Hospital Sun Yat‐Sen University Guangzhou 510080 P. R. China
Jia Wang: School of Health and Life Sciences University of Health and Rehabilitation Sciences Shandong 266071 China
Nan Cao: Advanced Medical Technology Center Zhongshan School of Medicine and the First Affiliated Hospital Sun Yat‐Sen University Guangzhou 510080 P. R. China
Zhongyan Chen: Advanced Medical Technology Center Zhongshan School of Medicine and the First Affiliated Hospital Sun Yat‐Sen University Guangzhou 510080 P. R. China

DOI: https://doi.org/10.1002/advs.202303799
Journal volume & issue: Vol. 10, no. 35
pp. n/a – n/a

Abstract

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Abstract Cardiac development involves large‐scale rearrangements of the proteome. How the developing cardiac cells maintain the integrity of the proteome during the rapid lineage transition remains unclear. Here it is shown that proteotoxic stress visualized by the misfolded and/or aggregated proteins appears during early cardiac differentiation of human pluripotent stem cells and is resolved by activation of the PERK branch of unfolded protein response (UPR). PERK depletion increases misfolded and/or aggregated protein accumulation, leading to pluripotency exit defect and impaired mesendoderm specification of human pluripotent stem cells. Mechanistically, it is found that PERK safeguards mesendoderm specification through its conserved downstream effector ATF4, which subsequently activates a novel transcriptional target WARS1, to cope with the differentiation‐induced proteotoxic stress. The results indicate that protein quality control represents a previously unrecognized core component of the cardiogenic regulatory network. Broadly, these findings provide a framework for understanding how UPR is integrated into the developmental program by activating the PERK‐ATF4‐WARS1 axis.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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