The E3 Ligase PIAS1 Regulates p53 Sumoylation to Control Stress-Induced Apoptosis of Lens Epithelial Cells Through the Proapoptotic Regulator Bax

Protein sumoylation is one of the most important post-translational modifications regulating many biological processes (Flotho A & Melchior F. 2013. Ann Rev. Biochem. 82:357–85). Our previous studies have shown that sumoylation plays a fundamental role in regulating lens differentiation (Yan et...

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Autores principales: Nie, Qian, Chen, Huimin, Zou, Ming, Wang, Ling, Hou, Min, Xiang, Jia-Wen, Luo, Zhongwen, Gong, Xiao-Dong, Fu, Jia-Ling, Wang, Yan, Zheng, Shu-Yu, Xiao, Yuan, Gan, Yu-Wen, Gao, Qian, Bai, Yue-Yue, Wang, Jing-Miao, Zhang, Lan, Tang, Xiang-Cheng, Hu, Xuebin, Gong, Lili, Liu, Yizhi, Li, David Wan-Cheng
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2021
Materias:
Cell and Developmental Biology
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8237824/
https://www.ncbi.nlm.nih.gov/pubmed/34195189
http://dx.doi.org/10.3389/fcell.2021.660494
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author Nie, Qian
Chen, Huimin
Zou, Ming
Wang, Ling
Hou, Min
Xiang, Jia-Wen
Luo, Zhongwen
Gong, Xiao-Dong
Fu, Jia-Ling
Wang, Yan
Zheng, Shu-Yu
Xiao, Yuan
Gan, Yu-Wen
Gao, Qian
Bai, Yue-Yue
Wang, Jing-Miao
Zhang, Lan
Tang, Xiang-Cheng
Hu, Xuebin
Gong, Lili
Liu, Yizhi
Li, David Wan-Cheng
author_facet Nie, Qian
Chen, Huimin
Zou, Ming
Wang, Ling
Hou, Min
Xiang, Jia-Wen
Luo, Zhongwen
Gong, Xiao-Dong
Fu, Jia-Ling
Wang, Yan
Zheng, Shu-Yu
Xiao, Yuan
Gan, Yu-Wen
Gao, Qian
Bai, Yue-Yue
Wang, Jing-Miao
Zhang, Lan
Tang, Xiang-Cheng
Hu, Xuebin
Gong, Lili
Liu, Yizhi
Li, David Wan-Cheng
author_sort Nie, Qian
collection PubMed
description Protein sumoylation is one of the most important post-translational modifications regulating many biological processes (Flotho A & Melchior F. 2013. Ann Rev. Biochem. 82:357–85). Our previous studies have shown that sumoylation plays a fundamental role in regulating lens differentiation (Yan et al., 2010. PNAS, 107(49):21034-9.; Gong et al., 2014. PNAS. 111(15):5574–9). Whether sumoylation is implicated in lens pathogenesis remains elusive. Here, we present evidence to show that the protein inhibitor of activated STAT-1 (PIAS1), a E3 ligase for sumoylation, is implicated in regulating stress-induced lens pathogenesis. During oxidative stress-induced cataractogenesis, expression of PIAS1 is significantly altered at both mRNA and protein levels. Upregulation and overexpression of exogenous PIAS1 significantly enhances stress-induced apoptosis. In contrast, silence of PIAS1 with CRISPR/Cas9 technology attenuates stress-induced apoptosis. Mechanistically, different from other cells, PIAS1 has little effect to activate JNK but upregulates Bax, a major proapoptotic regulator. Moreover, Bax upregulation is derived from the enhanced transcription activity of the upstream transcription factor, p53. As revealed previously in other cells by different laboratories, our data also demonstrate that PIAS1 promotes SUMO1 conjugation of p53 at K386 residue in lens epithelial cells and thus enhances p53 transcription activity to promote Bax upregulation. Silence of Bax expression largely abrogates PIAS1-mediated enhancement of stress-induced apoptosis. Thus, our results demonstrated that PIAS1 promotes oxidative stress-induced apoptosis through positive control of p53, which specifically upregulates expression of the downstream proapoptotic regulator Bax. As a result, PIAS1-promoted apoptosis induced by oxidative stress is implicated in lens pathogenesis.
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spelling pubmed-82378242021-06-29 The E3 Ligase PIAS1 Regulates p53 Sumoylation to Control Stress-Induced Apoptosis of Lens Epithelial Cells Through the Proapoptotic Regulator Bax Nie, Qian Chen, Huimin Zou, Ming Wang, Ling Hou, Min Xiang, Jia-Wen Luo, Zhongwen Gong, Xiao-Dong Fu, Jia-Ling Wang, Yan Zheng, Shu-Yu Xiao, Yuan Gan, Yu-Wen Gao, Qian Bai, Yue-Yue Wang, Jing-Miao Zhang, Lan Tang, Xiang-Cheng Hu, Xuebin Gong, Lili Liu, Yizhi Li, David Wan-Cheng Front Cell Dev Biol Cell and Developmental Biology Protein sumoylation is one of the most important post-translational modifications regulating many biological processes (Flotho A & Melchior F. 2013. Ann Rev. Biochem. 82:357–85). Our previous studies have shown that sumoylation plays a fundamental role in regulating lens differentiation (Yan et al., 2010. PNAS, 107(49):21034-9.; Gong et al., 2014. PNAS. 111(15):5574–9). Whether sumoylation is implicated in lens pathogenesis remains elusive. Here, we present evidence to show that the protein inhibitor of activated STAT-1 (PIAS1), a E3 ligase for sumoylation, is implicated in regulating stress-induced lens pathogenesis. During oxidative stress-induced cataractogenesis, expression of PIAS1 is significantly altered at both mRNA and protein levels. Upregulation and overexpression of exogenous PIAS1 significantly enhances stress-induced apoptosis. In contrast, silence of PIAS1 with CRISPR/Cas9 technology attenuates stress-induced apoptosis. Mechanistically, different from other cells, PIAS1 has little effect to activate JNK but upregulates Bax, a major proapoptotic regulator. Moreover, Bax upregulation is derived from the enhanced transcription activity of the upstream transcription factor, p53. As revealed previously in other cells by different laboratories, our data also demonstrate that PIAS1 promotes SUMO1 conjugation of p53 at K386 residue in lens epithelial cells and thus enhances p53 transcription activity to promote Bax upregulation. Silence of Bax expression largely abrogates PIAS1-mediated enhancement of stress-induced apoptosis. Thus, our results demonstrated that PIAS1 promotes oxidative stress-induced apoptosis through positive control of p53, which specifically upregulates expression of the downstream proapoptotic regulator Bax. As a result, PIAS1-promoted apoptosis induced by oxidative stress is implicated in lens pathogenesis. Frontiers Media S.A. 2021-06-14 /pmc/articles/PMC8237824/ /pubmed/34195189 http://dx.doi.org/10.3389/fcell.2021.660494 Text en Copyright © 2021 Nie, Chen, Zou, Wang, Hou, Xiang, Luo, Gong, Fu, Wang, Zheng, Xiao, Gan, Gao, Bai, Wang, Zhang, Tang, Hu, Gong, Liu and Li. https://creativecommons.org/licenses/by/4.0/This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
spellingShingle Cell and Developmental Biology
Nie, Qian
Chen, Huimin
Zou, Ming
Wang, Ling
Hou, Min
Xiang, Jia-Wen
Luo, Zhongwen
Gong, Xiao-Dong
Fu, Jia-Ling
Wang, Yan
Zheng, Shu-Yu
Xiao, Yuan
Gan, Yu-Wen
Gao, Qian
Bai, Yue-Yue
Wang, Jing-Miao
Zhang, Lan
Tang, Xiang-Cheng
Hu, Xuebin
Gong, Lili
Liu, Yizhi
Li, David Wan-Cheng
The E3 Ligase PIAS1 Regulates p53 Sumoylation to Control Stress-Induced Apoptosis of Lens Epithelial Cells Through the Proapoptotic Regulator Bax
title The E3 Ligase PIAS1 Regulates p53 Sumoylation to Control Stress-Induced Apoptosis of Lens Epithelial Cells Through the Proapoptotic Regulator Bax
title_full The E3 Ligase PIAS1 Regulates p53 Sumoylation to Control Stress-Induced Apoptosis of Lens Epithelial Cells Through the Proapoptotic Regulator Bax
title_fullStr The E3 Ligase PIAS1 Regulates p53 Sumoylation to Control Stress-Induced Apoptosis of Lens Epithelial Cells Through the Proapoptotic Regulator Bax
title_full_unstemmed The E3 Ligase PIAS1 Regulates p53 Sumoylation to Control Stress-Induced Apoptosis of Lens Epithelial Cells Through the Proapoptotic Regulator Bax
title_short The E3 Ligase PIAS1 Regulates p53 Sumoylation to Control Stress-Induced Apoptosis of Lens Epithelial Cells Through the Proapoptotic Regulator Bax
title_sort e3 ligase pias1 regulates p53 sumoylation to control stress-induced apoptosis of lens epithelial cells through the proapoptotic regulator bax
topic Cell and Developmental Biology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8237824/
https://www.ncbi.nlm.nih.gov/pubmed/34195189
http://dx.doi.org/10.3389/fcell.2021.660494
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