Cullin-5 neddylation-mediated NOXA degradation is enhanced by PRDX1 oligomers in colorectal cancer

Cullin-5 neddylation-mediated NOXA degradation is enhanced by PRDX1 oligomers in colorectal cancer

Abstract NOXA, a BH3-only proapoptotic protein involved in regulating cell death decisions, is highly expressed but short-lived in colorectal cancer (CRC). Neddylated cullin-5 (CUL5)-mediated ubiquitination and degradation of NOXA is crucial to prevent its overaccumulation and maintain an appropriat...

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Main Authors: Shoufang Xu, Yilei Ma, Qingchao Tong, Jun Yang, Jia Liu, Yanzhong Wang, Guoli Li, Jin Zeng, Sining Fang, Fengying Li, Xinyou Xie, Jun Zhang
Format: Article
Language:English
Published: Nature Publishing Group 2021-03-01
Series:Cell Death and Disease
Online Access:https://doi.org/10.1038/s41419-021-03557-3
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spelling doaj-d0a2976a5d2b4ee9bb17b67a5f5e8cea2021-03-14T12:03:06ZengNature Publishing GroupCell Death and Disease2041-48892021-03-0112311610.1038/s41419-021-03557-3Cullin-5 neddylation-mediated NOXA degradation is enhanced by PRDX1 oligomers in colorectal cancerShoufang Xu0Yilei Ma1Qingchao Tong2Jun Yang3Jia Liu4Yanzhong Wang5Guoli Li6Jin Zeng7Sining Fang8Fengying Li9Xinyou Xie10Jun Zhang11Department of Clinical Laboratory, Sir Run Run Shaw Hospital, School of Medicine, Zhejiang UniversityDepartment of Clinical Laboratory, Sir Run Run Shaw Hospital, School of Medicine, Zhejiang UniversityDepartment of Clinical Laboratory, Sir Run Run Shaw Hospital, School of Medicine, Zhejiang UniversityDepartment of Clinical Laboratory, Sir Run Run Shaw Hospital, School of Medicine, Zhejiang UniversityDepartment of Clinical Laboratory, Sir Run Run Shaw Hospital, School of Medicine, Zhejiang UniversityDepartment of Clinical Laboratory, Sir Run Run Shaw Hospital, School of Medicine, Zhejiang UniversityDepartment of Clinical Laboratory, Sir Run Run Shaw Hospital, School of Medicine, Zhejiang UniversityDepartment of Clinical Laboratory, Sir Run Run Shaw Hospital, School of Medicine, Zhejiang UniversityDepartment of Clinical Laboratory, Sir Run Run Shaw Hospital, School of Medicine, Zhejiang UniversityDepartment of Clinical Laboratory, Sir Run Run Shaw Hospital, School of Medicine, Zhejiang UniversityDepartment of Clinical Laboratory, Sir Run Run Shaw Hospital, School of Medicine, Zhejiang UniversityDepartment of Clinical Laboratory, Sir Run Run Shaw Hospital, School of Medicine, Zhejiang UniversityAbstract NOXA, a BH3-only proapoptotic protein involved in regulating cell death decisions, is highly expressed but short-lived in colorectal cancer (CRC). Neddylated cullin-5 (CUL5)-mediated ubiquitination and degradation of NOXA is crucial to prevent its overaccumulation and maintain an appropriate action time. However, how this process is manipulated by CRC cells commonly exposed to oxidative stress remain unknown. The peroxiredoxin PRDX1, a conceivable antioxidant overexpressed in CRC tissues, has been shown to inhibit apoptosis and TRAF6 ubiquitin-ligase activity. In this study, we found that PRDX1 inhibits CRC cell apoptosis by downregulating NOXA. Mechanistically, PRDX1 promotes NOXA ubiquitination and degradation, which completely depend on CUL5 neddylation. Further studies have demonstrated that PRDX1 oligomers bind with both the Nedd8-conjugating enzyme UBE2F and CUL5 and that this tricomplex is critical for CUL5 neddylation, since silencing PRDX1 or inhibiting PRDX1 oligomerization greatly dampens CUL5 neddylation and NOXA degradation. An increase in reactive oxygen species (ROS) is not only a hallmark of cancer cells but also the leading driving force for PRDX1 oligomerization. As shown in our study, although ROS play a role in upregulating NOXA mRNA transcription, ROS scavenging in CRC cells by N-acetyl-L-cysteine (NAC) can significantly reduce CUL5 neddylation and extend the NOXA protein half-life. Therefore, in CRC, PRDX1 plays a key role in maintaining intracellular homeostasis under conditions of high metabolic activity by reinforcing UBE2F-CUL5-mediated degradation of NOXA, which is also evidenced in the resistance of CRC cells to etoposide treatment. Based on these findings, targeting PRDX1 could be an effective strategy to overcome the resistance of CRC to DNA damage-inducing chemotherapeutics.https://doi.org/10.1038/s41419-021-03557-3
collection DOAJ
language English
format Article
sources DOAJ
author Shoufang Xu
Yilei Ma
Qingchao Tong
Jun Yang
Jia Liu
Yanzhong Wang
Guoli Li
Jin Zeng
Sining Fang
Fengying Li
Xinyou Xie
Jun Zhang
spellingShingle Shoufang Xu
Yilei Ma
Qingchao Tong
Jun Yang
Jia Liu
Yanzhong Wang
Guoli Li
Jin Zeng
Sining Fang
Fengying Li
Xinyou Xie
Jun Zhang
Cullin-5 neddylation-mediated NOXA degradation is enhanced by PRDX1 oligomers in colorectal cancer
Cell Death and Disease
author_facet Shoufang Xu
Yilei Ma
Qingchao Tong
Jun Yang
Jia Liu
Yanzhong Wang
Guoli Li
Jin Zeng
Sining Fang
Fengying Li
Xinyou Xie
Jun Zhang
author_sort Shoufang Xu
title Cullin-5 neddylation-mediated NOXA degradation is enhanced by PRDX1 oligomers in colorectal cancer
title_short Cullin-5 neddylation-mediated NOXA degradation is enhanced by PRDX1 oligomers in colorectal cancer
title_full Cullin-5 neddylation-mediated NOXA degradation is enhanced by PRDX1 oligomers in colorectal cancer
title_fullStr Cullin-5 neddylation-mediated NOXA degradation is enhanced by PRDX1 oligomers in colorectal cancer
title_full_unstemmed Cullin-5 neddylation-mediated NOXA degradation is enhanced by PRDX1 oligomers in colorectal cancer
title_sort cullin-5 neddylation-mediated noxa degradation is enhanced by prdx1 oligomers in colorectal cancer
publisher Nature Publishing Group
series Cell Death and Disease
issn 2041-4889
publishDate 2021-03-01
description Abstract NOXA, a BH3-only proapoptotic protein involved in regulating cell death decisions, is highly expressed but short-lived in colorectal cancer (CRC). Neddylated cullin-5 (CUL5)-mediated ubiquitination and degradation of NOXA is crucial to prevent its overaccumulation and maintain an appropriate action time. However, how this process is manipulated by CRC cells commonly exposed to oxidative stress remain unknown. The peroxiredoxin PRDX1, a conceivable antioxidant overexpressed in CRC tissues, has been shown to inhibit apoptosis and TRAF6 ubiquitin-ligase activity. In this study, we found that PRDX1 inhibits CRC cell apoptosis by downregulating NOXA. Mechanistically, PRDX1 promotes NOXA ubiquitination and degradation, which completely depend on CUL5 neddylation. Further studies have demonstrated that PRDX1 oligomers bind with both the Nedd8-conjugating enzyme UBE2F and CUL5 and that this tricomplex is critical for CUL5 neddylation, since silencing PRDX1 or inhibiting PRDX1 oligomerization greatly dampens CUL5 neddylation and NOXA degradation. An increase in reactive oxygen species (ROS) is not only a hallmark of cancer cells but also the leading driving force for PRDX1 oligomerization. As shown in our study, although ROS play a role in upregulating NOXA mRNA transcription, ROS scavenging in CRC cells by N-acetyl-L-cysteine (NAC) can significantly reduce CUL5 neddylation and extend the NOXA protein half-life. Therefore, in CRC, PRDX1 plays a key role in maintaining intracellular homeostasis under conditions of high metabolic activity by reinforcing UBE2F-CUL5-mediated degradation of NOXA, which is also evidenced in the resistance of CRC cells to etoposide treatment. Based on these findings, targeting PRDX1 could be an effective strategy to overcome the resistance of CRC to DNA damage-inducing chemotherapeutics.
url https://doi.org/10.1038/s41419-021-03557-3
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