UBE3A-mediated PTPA ubiquitination and degradation regulate PP2A activity and dendritic spine morphology

Jie Wang; Sen Sen Lou; Tingting Wang; Rong Jie Wu; Guangying Li; Miao Zhao; Bin Lu; Yi Yan Li; Jing Zhang; Xuewen Cheng; Ya Shen; Xing Wang; Zhi Chuan Zhu; Ming Jie Li; Toru Takumi; Hui Yang; Xiang Yu; Lujian Liao; Zhi Qi Xiong

doi:10.1073/pnas.1820131116

UBE3A-mediated PTPA ubiquitination and degradation regulate PP2A activity and dendritic spine morphology

Jie Wang, Sen Sen Lou, Tingting Wang, Rong Jie Wu, Guangying Li, Miao Zhao, Bin Lu, Yi Yan Li, Jing Zhang, Xuewen Cheng, Ya Shen, Xing Wang, Zhi Chuan Zhu, Ming Jie Li, Toru Takumi, Hui Yang, Xiang Yu, Lujian Liao, Zhi Qi Xiong

School of Life Sciences

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

44 Scopus citations

Abstract

Deficiency in the E3 ubiquitin ligase UBE3A leads to the neurodevelopmental disorder Angelman syndrome (AS), while additional dosage of UBE3A is linked to autism spectrum disorder. The mechanisms underlying the downstream effects of UBE3A gain or loss of function in these neurodevelopmental disorders are still not well understood, and effective treatments are lacking. Here, using stable-isotope labeling of amino acids in mammals and ubiquitination assays, we identify PTPA, an activator of protein phosphatase 2A (PP2A), as a bona fide ubiquitin ligase substrate of UBE3A. Maternal loss of Ube3a (Ube3a^m−/p⁺) increased PTPA level, promoted PP2A holoenzyme assembly, and elevated PP2A activity, while maternal 15q11–13 duplication containing Ube3a down-regulated PTPA level and lowered PP2A activity. Reducing PTPA level in vivo restored the defects in dendritic spine maturation in Ube3a^m−/p⁺ mice. Moreover, pharmacological inhibition of PP2A activity with the small molecule LB-100 alleviated both reduction in excitatory synaptic transmission and motor impairment in Ube3a^m−/p⁺ mice. Together, our results implicate a critical role of UBE3A-PTPA-PP2A signaling in the pathogenesis of UBE3A-related disorders and suggest that PP2A-based drugs could be potential therapeutic candidates for treatment of UBE3A-related disorders.

Original language	English
Pages (from-to)	12500-12505
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	116
Issue number	25
DOIs	https://doi.org/10.1073/pnas.1820131116
State	Published - 18 Jun 2019

Keywords

Angelman syndrome
Protein phosphatase 2A
Spine morphology
UBE3A
Ubiquitin

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10.1073/pnas.1820131116

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Wang, J., Lou, S. S., Wang, T., Wu, R. J., Li, G., Zhao, M., Lu, B., Li, Y. Y., Zhang, J., Cheng, X., Shen, Y., Wang, X., Zhu, Z. C., Li, M. J., Takumi, T., Yang, H., Yu, X., Liao, L., & Xiong, Z. Q. (2019). UBE3A-mediated PTPA ubiquitination and degradation regulate PP2A activity and dendritic spine morphology. Proceedings of the National Academy of Sciences of the United States of America, 116(25), 12500-12505. https://doi.org/10.1073/pnas.1820131116

@article{7280bd0f5ccf4ddb9e9452dfea4aebb4,

title = "UBE3A-mediated PTPA ubiquitination and degradation regulate PP2A activity and dendritic spine morphology",

abstract = "Deficiency in the E3 ubiquitin ligase UBE3A leads to the neurodevelopmental disorder Angelman syndrome (AS), while additional dosage of UBE3A is linked to autism spectrum disorder. The mechanisms underlying the downstream effects of UBE3A gain or loss of function in these neurodevelopmental disorders are still not well understood, and effective treatments are lacking. Here, using stable-isotope labeling of amino acids in mammals and ubiquitination assays, we identify PTPA, an activator of protein phosphatase 2A (PP2A), as a bona fide ubiquitin ligase substrate of UBE3A. Maternal loss of Ube3a (Ube3am−/p+) increased PTPA level, promoted PP2A holoenzyme assembly, and elevated PP2A activity, while maternal 15q11–13 duplication containing Ube3a down-regulated PTPA level and lowered PP2A activity. Reducing PTPA level in vivo restored the defects in dendritic spine maturation in Ube3am−/p+ mice. Moreover, pharmacological inhibition of PP2A activity with the small molecule LB-100 alleviated both reduction in excitatory synaptic transmission and motor impairment in Ube3am−/p+ mice. Together, our results implicate a critical role of UBE3A-PTPA-PP2A signaling in the pathogenesis of UBE3A-related disorders and suggest that PP2A-based drugs could be potential therapeutic candidates for treatment of UBE3A-related disorders.",

keywords = "Angelman syndrome, Protein phosphatase 2A, Spine morphology, UBE3A, Ubiquitin",

author = "Jie Wang and Lou, \{Sen Sen\} and Tingting Wang and Wu, \{Rong Jie\} and Guangying Li and Miao Zhao and Bin Lu and Li, \{Yi Yan\} and Jing Zhang and Xuewen Cheng and Ya Shen and Xing Wang and Zhu, \{Zhi Chuan\} and Li, \{Ming Jie\} and Toru Takumi and Hui Yang and Xiang Yu and Lujian Liao and Xiong, \{Zhi Qi\}",

year = "2019",

month = jun,

day = "18",

doi = "10.1073/pnas.1820131116",

language = "英语",

volume = "116",

pages = "12500--12505",

journal = "Proceedings of the National Academy of Sciences of the United States of America",

issn = "0027-8424",

publisher = "National Academy of Sciences",

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Wang, J, Lou, SS, Wang, T, Wu, RJ, Li, G, Zhao, M, Lu, B, Li, YY, Zhang, J, Cheng, X, Shen, Y, Wang, X, Zhu, ZC, Li, MJ, Takumi, T, Yang, H, Yu, X, Liao, L & Xiong, ZQ 2019, 'UBE3A-mediated PTPA ubiquitination and degradation regulate PP2A activity and dendritic spine morphology', Proceedings of the National Academy of Sciences of the United States of America, vol. 116, no. 25, pp. 12500-12505. https://doi.org/10.1073/pnas.1820131116

TY - JOUR

T1 - UBE3A-mediated PTPA ubiquitination and degradation regulate PP2A activity and dendritic spine morphology

AU - Wang, Jie

AU - Lou, Sen Sen

AU - Wang, Tingting

AU - Wu, Rong Jie

AU - Li, Guangying

AU - Zhao, Miao

AU - Lu, Bin

AU - Li, Yi Yan

AU - Zhang, Jing

AU - Cheng, Xuewen

AU - Shen, Ya

AU - Wang, Xing

AU - Zhu, Zhi Chuan

AU - Li, Ming Jie

AU - Takumi, Toru

AU - Yang, Hui

AU - Yu, Xiang

AU - Liao, Lujian

AU - Xiong, Zhi Qi

PY - 2019/6/18

Y1 - 2019/6/18

N2 - Deficiency in the E3 ubiquitin ligase UBE3A leads to the neurodevelopmental disorder Angelman syndrome (AS), while additional dosage of UBE3A is linked to autism spectrum disorder. The mechanisms underlying the downstream effects of UBE3A gain or loss of function in these neurodevelopmental disorders are still not well understood, and effective treatments are lacking. Here, using stable-isotope labeling of amino acids in mammals and ubiquitination assays, we identify PTPA, an activator of protein phosphatase 2A (PP2A), as a bona fide ubiquitin ligase substrate of UBE3A. Maternal loss of Ube3a (Ube3am−/p+) increased PTPA level, promoted PP2A holoenzyme assembly, and elevated PP2A activity, while maternal 15q11–13 duplication containing Ube3a down-regulated PTPA level and lowered PP2A activity. Reducing PTPA level in vivo restored the defects in dendritic spine maturation in Ube3am−/p+ mice. Moreover, pharmacological inhibition of PP2A activity with the small molecule LB-100 alleviated both reduction in excitatory synaptic transmission and motor impairment in Ube3am−/p+ mice. Together, our results implicate a critical role of UBE3A-PTPA-PP2A signaling in the pathogenesis of UBE3A-related disorders and suggest that PP2A-based drugs could be potential therapeutic candidates for treatment of UBE3A-related disorders.

AB - Deficiency in the E3 ubiquitin ligase UBE3A leads to the neurodevelopmental disorder Angelman syndrome (AS), while additional dosage of UBE3A is linked to autism spectrum disorder. The mechanisms underlying the downstream effects of UBE3A gain or loss of function in these neurodevelopmental disorders are still not well understood, and effective treatments are lacking. Here, using stable-isotope labeling of amino acids in mammals and ubiquitination assays, we identify PTPA, an activator of protein phosphatase 2A (PP2A), as a bona fide ubiquitin ligase substrate of UBE3A. Maternal loss of Ube3a (Ube3am−/p+) increased PTPA level, promoted PP2A holoenzyme assembly, and elevated PP2A activity, while maternal 15q11–13 duplication containing Ube3a down-regulated PTPA level and lowered PP2A activity. Reducing PTPA level in vivo restored the defects in dendritic spine maturation in Ube3am−/p+ mice. Moreover, pharmacological inhibition of PP2A activity with the small molecule LB-100 alleviated both reduction in excitatory synaptic transmission and motor impairment in Ube3am−/p+ mice. Together, our results implicate a critical role of UBE3A-PTPA-PP2A signaling in the pathogenesis of UBE3A-related disorders and suggest that PP2A-based drugs could be potential therapeutic candidates for treatment of UBE3A-related disorders.

KW - Angelman syndrome

KW - Protein phosphatase 2A

KW - Spine morphology

KW - UBE3A

KW - Ubiquitin

UR - https://www.scopus.com/pages/publications/85067597980

U2 - 10.1073/pnas.1820131116

DO - 10.1073/pnas.1820131116

M3 - 文章

C2 - 31160454

AN - SCOPUS:85067597980

SN - 0027-8424

VL - 116

SP - 12500

EP - 12505

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 25

ER -

UBE3A-mediated PTPA ubiquitination and degradation regulate PP2A activity and dendritic spine morphology

Abstract

Keywords

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