机构:[a]Department of General Surgery, Chinese People's Liberation Army General Hospital, Beijing 100853, China[b]State Key Laboratory of Proteomics, National Center of Protein Sciences (Beijing), Beijing Institute of Lifeomics, Beijing 100850, China[c]Affiliated BaYi Children's hospital, PLA Army General Hospital, National Engineering Laboratory for Birth Defects Prevention and Control of Key Technology, Beijing Key laboratory of Pediatric Organ Failure, Beijing 100710, China[d]Key Laboratory of Space Nutrition and Food Engineering, China Astronaut Research and Training Center, Beijing 100194, China航天员中心[e]Department of General Surgery, PLA Army General Hospital, Beijing 100700, China[f]Department of Geriatric Endocrinology, Chinese People's Liberation Army General Hospital, Beijing 100853, China[g]Department of Respiratory Medicine, PLA Army General Hospital, Beijing 100700, China[h]Peixian People's Hospital, Jiangsu Province 221600, China
The endoplasmic reticulum (ER) is a cellular organelle with central roles in maintaining proteostasis. The accumulation of misfolded proteins in the ER lumen causes ER stress. Cells evoke an evolutionarily conserved adaptive signaling network "unfolded protein response" to restore ER homeostasis, however, how the signaling network is delicately orchestrated remains largely unrevealed. Meanwhile, the HECT type E3 ligase Smad ubiquitylation regulatory factor 1 (Smurf1) has been reported to play critical roles in several important biological pathways by targeting distinct substrates for ubiquitylation, including WFS1, a critical mediator of ER stress, whereas the regulation of Smurf1 activity and abundance upon ER stress are poorly understood. Here, we identified Interleukin-1 Receptor Associated Kinase 2 (IRAK2) as a novel modulator of Smurf1 in response to ER stress induced cell death. Mechanistically, IRAK2 phosphorylates Smurf1 at threonine residues to promote its self-degradation by ubiquitylation, resulting in altered cascade of ER effectors to induce apoptosis. Reduced IRAK2 expression correlates with increased Smurf1 abundance in human colorectal cancer cells. Taken together, these findings demonstrate a novel mechanism of interplays for the different branches of ER stress signaling network and highlight IRAK2 as a potential tumor suppressor to counterbalance oncogenic Smurf1.
基金:
This work was jointly supported by Chinese National Basic Research Programs ( 81773247 , 81700069 ), the special projects of Beijing Natural Science Foundation ( Z151100003915083 ).
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外文
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出版当年[2017]版:
大类|2 区生物
小类|3 区细胞生物学
最新[2023]版:
大类|2 区生物学
小类|3 区细胞生物学
第一作者:
第一作者机构:[a]Department of General Surgery, Chinese People's Liberation Army General Hospital, Beijing 100853, China
共同第一作者:
通讯作者:
通讯机构:[a]Department of General Surgery, Chinese People's Liberation Army General Hospital, Beijing 100853, China[b]State Key Laboratory of Proteomics, National Center of Protein Sciences (Beijing), Beijing Institute of Lifeomics, Beijing 100850, China[h]Peixian People's Hospital, Jiangsu Province 221600, China[*1]Peixian People's Hospital, Jiangsu Province 221600, China.
推荐引用方式(GB/T 7714):
Jingwen Liu,Yuhan Chen,Qingyang Huang,et al.IRAK2 counterbalances oncogenic Smurf1 in colon cancer cells by dictating ER stress[J].CELLULAR SIGNALLING.2018,48:69-80.doi:10.1016/j.cellsig.2018.05.001.
APA:
Jingwen Liu,Yuhan Chen,Qingyang Huang,Wen Liu,Xiqing Ji...&Guanglong Dong.(2018).IRAK2 counterbalances oncogenic Smurf1 in colon cancer cells by dictating ER stress.CELLULAR SIGNALLING,48,
MLA:
Jingwen Liu,et al."IRAK2 counterbalances oncogenic Smurf1 in colon cancer cells by dictating ER stress".CELLULAR SIGNALLING 48.(2018):69-80
