ARD1-mediated Hsp70 acetylation balances stress-induced protein refolding and degradation

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作者
Ji Hae Seo
Ji-Hyeon Park
Eun Ji Lee
Tam Thuy Lu Vo
Hoon Choi
Jun Yong Kim
Jae Kyung Jang
Hee-Jun Wee
Hye Shin Lee
Se Hwan Jang
Zee Yong Park
Jaeho Jeong
Kong-Joo Lee
Seung-Hyeon Seok
Jin Young Park
Bong Jin Lee
Mi-Ni Lee
Goo Taeg Oh
Kyu-Won Kim
机构
[1] SNU-Harvard NeuroVascular Protection Research Center,Department of Molecular Medicine and Biopharmaceutical Sciences
[2] College of Pharmacy,Department of Life Sciences
[3] Seoul National University,undefined
[4] Graduate School of Convergence Science and Technology,undefined
[5] Seoul National University,undefined
[6] School of Life Sciences,undefined
[7] Gwangju Institute of Science & Technology,undefined
[8] Graduate School of Pharmaceutical Sciences,undefined
[9] College of Pharmacy,undefined
[10] Ewha Womans University,undefined
[11] The Research Institute of Pharmaceutical Sciences,undefined
[12] College of Pharmacy,undefined
[13] Seoul National University,undefined
[14] Ewha Womans University,undefined
[15] Crop Biotechnology Institute,undefined
[16] GreenBio Science and Technology,undefined
[17] Seoul National University,undefined
来源
Nature Communications | / 7卷
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摘要
Heat shock protein (Hsp)70 is a molecular chaperone that maintains protein homoeostasis during cellular stress through two opposing mechanisms: protein refolding and degradation. However, the mechanisms by which Hsp70 balances these opposing functions under stress conditions remain unknown. Here, we demonstrate that Hsp70 preferentially facilitates protein refolding after stress, gradually switching to protein degradation via a mechanism dependent on ARD1-mediated Hsp70 acetylation. During the early stress response, Hsp70 is immediately acetylated by ARD1 at K77, and the acetylated Hsp70 binds to the co-chaperone Hop to allow protein refolding. Thereafter, Hsp70 is deacetylated and binds to the ubiquitin ligase protein CHIP to complete protein degradation during later stages. This switch is required for the maintenance of protein homoeostasis and ultimately rescues cells from stress-induced cell death in vitro and in vivo. Therefore, ARD1-mediated Hsp70 acetylation is a regulatory mechanism that temporally balances protein refolding/degradation in response to stress.
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