Dynamic molecular architecture and substrate recruitment of cullin3–RING E3 ligase CRL3KBTBD2

Yuxia Hu; Zhao Zhang; Qiyu Mao; Xiang Zhang; Aihua Hao; Yu Xun; Yeda Wang; Lin Han; Wuqiang Zhan; Qianying Liu; Yue Yin; Chao Peng; Eva Marie Y. Moresco; Zhenguo Chen; Bruce Beutler; Lei Sun

doi:10.1038/s41594-023-01182-6

Dynamic molecular architecture and substrate recruitment of cullin3–RING E3 ligase CRL3^KBTBD2

Yuxia Hu, Zhao Zhang, Qiyu Mao, Xiang Zhang, Aihua Hao, Yu Xun, Yeda Wang, Lin Han, Wuqiang Zhan, Qianying Liu, Yue Yin, Chao Peng, Eva Marie Y. Moresco, Zhenguo Chen, Bruce Beutler, Lei Sun

Research output: Contribution to journal › Article › peer-review

Abstract

Phosphatidylinositol 3-kinase α, a heterodimer of catalytic p110α and one of five regulatory subunits, mediates insulin- and insulin like growth factor-signaling and, frequently, oncogenesis. Cellular levels of the regulatory p85α subunit are tightly controlled by regulated proteasomal degradation. In adipose tissue and growth plates, failure of K48-linked p85α ubiquitination causes diabetes, lipodystrophy and dwarfism in mice, as in humans with SHORT syndrome. Here we elucidated the structures of the key ubiquitin ligase complexes regulating p85α availability. Specificity is provided by the substrate receptor KBTBD2, which recruits p85α to the cullin3–RING E3 ubiquitin ligase (CRL3). CRL3^KBTBD2 forms multimers, which disassemble into dimers upon substrate binding (CRL3^KBTBD2–p85α) and/or neddylation by the activator NEDD8 (CRL3^KBTBD2~N8), leading to p85α ubiquitination and degradation. Deactivation involves dissociation of NEDD8 mediated by the COP9 signalosome and displacement of KBTBD2 by the inhibitor CAND1. The hereby identified structural basis of p85α regulation opens the way to better understanding disturbances of glucose regulation, growth and cancer.

Original language	English (US)
Pages (from-to)	336-350
Number of pages	15
Journal	Nature Structural and Molecular Biology
Volume	31
Issue number	2
DOIs	https://doi.org/10.1038/s41594-023-01182-6
State	Published - Feb 2024

ASJC Scopus subject areas

Structural Biology
Molecular Biology

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Hu, Y., Zhang, Z., Mao, Q., Zhang, X., Hao, A., Xun, Y., Wang, Y., Han, L., Zhan, W., Liu, Q., Yin, Y., Peng, C., Moresco, E. M. Y., Chen, Z., Beutler, B., & Sun, L. (2024). Dynamic molecular architecture and substrate recruitment of cullin3–RING E3 ligase CRL3^KBTBD2. Nature Structural and Molecular Biology, 31(2), 336-350. https://doi.org/10.1038/s41594-023-01182-6

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title = "Dynamic molecular architecture and substrate recruitment of cullin3–RING E3 ligase CRL3KBTBD2",

abstract = "Phosphatidylinositol 3-kinase α, a heterodimer of catalytic p110α and one of five regulatory subunits, mediates insulin- and insulin like growth factor-signaling and, frequently, oncogenesis. Cellular levels of the regulatory p85α subunit are tightly controlled by regulated proteasomal degradation. In adipose tissue and growth plates, failure of K48-linked p85α ubiquitination causes diabetes, lipodystrophy and dwarfism in mice, as in humans with SHORT syndrome. Here we elucidated the structures of the key ubiquitin ligase complexes regulating p85α availability. Specificity is provided by the substrate receptor KBTBD2, which recruits p85α to the cullin3–RING E3 ubiquitin ligase (CRL3). CRL3KBTBD2 forms multimers, which disassemble into dimers upon substrate binding (CRL3KBTBD2–p85α) and/or neddylation by the activator NEDD8 (CRL3KBTBD2~N8), leading to p85α ubiquitination and degradation. Deactivation involves dissociation of NEDD8 mediated by the COP9 signalosome and displacement of KBTBD2 by the inhibitor CAND1. The hereby identified structural basis of p85α regulation opens the way to better understanding disturbances of glucose regulation, growth and cancer.",

author = "Yuxia Hu and Zhao Zhang and Qiyu Mao and Xiang Zhang and Aihua Hao and Yu Xun and Yeda Wang and Lin Han and Wuqiang Zhan and Qianying Liu and Yue Yin and Chao Peng and Moresco, {Eva Marie Y.} and Zhenguo Chen and Bruce Beutler and Lei Sun",

note = "Publisher Copyright: {\textcopyright} The Author(s), under exclusive licence to Springer Nature America, Inc. 2024.",

year = "2024",

month = feb,

doi = "10.1038/s41594-023-01182-6",

language = "English (US)",

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AU - Hu, Yuxia

AU - Zhang, Zhao

AU - Mao, Qiyu

AU - Zhang, Xiang

AU - Hao, Aihua

AU - Xun, Yu

AU - Wang, Yeda

AU - Han, Lin

AU - Zhan, Wuqiang

AU - Liu, Qianying

AU - Yin, Yue

AU - Peng, Chao

AU - Moresco, Eva Marie Y.

AU - Chen, Zhenguo

AU - Beutler, Bruce

AU - Sun, Lei

PY - 2024/2

Y1 - 2024/2

N2 - Phosphatidylinositol 3-kinase α, a heterodimer of catalytic p110α and one of five regulatory subunits, mediates insulin- and insulin like growth factor-signaling and, frequently, oncogenesis. Cellular levels of the regulatory p85α subunit are tightly controlled by regulated proteasomal degradation. In adipose tissue and growth plates, failure of K48-linked p85α ubiquitination causes diabetes, lipodystrophy and dwarfism in mice, as in humans with SHORT syndrome. Here we elucidated the structures of the key ubiquitin ligase complexes regulating p85α availability. Specificity is provided by the substrate receptor KBTBD2, which recruits p85α to the cullin3–RING E3 ubiquitin ligase (CRL3). CRL3KBTBD2 forms multimers, which disassemble into dimers upon substrate binding (CRL3KBTBD2–p85α) and/or neddylation by the activator NEDD8 (CRL3KBTBD2~N8), leading to p85α ubiquitination and degradation. Deactivation involves dissociation of NEDD8 mediated by the COP9 signalosome and displacement of KBTBD2 by the inhibitor CAND1. The hereby identified structural basis of p85α regulation opens the way to better understanding disturbances of glucose regulation, growth and cancer.

AB - Phosphatidylinositol 3-kinase α, a heterodimer of catalytic p110α and one of five regulatory subunits, mediates insulin- and insulin like growth factor-signaling and, frequently, oncogenesis. Cellular levels of the regulatory p85α subunit are tightly controlled by regulated proteasomal degradation. In adipose tissue and growth plates, failure of K48-linked p85α ubiquitination causes diabetes, lipodystrophy and dwarfism in mice, as in humans with SHORT syndrome. Here we elucidated the structures of the key ubiquitin ligase complexes regulating p85α availability. Specificity is provided by the substrate receptor KBTBD2, which recruits p85α to the cullin3–RING E3 ubiquitin ligase (CRL3). CRL3KBTBD2 forms multimers, which disassemble into dimers upon substrate binding (CRL3KBTBD2–p85α) and/or neddylation by the activator NEDD8 (CRL3KBTBD2~N8), leading to p85α ubiquitination and degradation. Deactivation involves dissociation of NEDD8 mediated by the COP9 signalosome and displacement of KBTBD2 by the inhibitor CAND1. The hereby identified structural basis of p85α regulation opens the way to better understanding disturbances of glucose regulation, growth and cancer.

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Dynamic molecular architecture and substrate recruitment of cullin3–RING E3 ligase CRL3^KBTBD2

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