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The function of SUMOylation and its crucial roles in the development of neurological diseases

Xu Chen, Yuhong Zhang, Qiqi Wang, Yuanyuan Qin, Xinyi Yang, Zhengcao Xing, Yajie Shen, Hongmei Wu, Yitao Qi

2021The FASEB Journal38 citationsDOI

Abstract

Neurological diseases are relatively complex diseases of a large system; however, the detailed mechanism of their pathogenesis has not been completely elucidated, and effective treatment methods are still lacking for some of the diseases. The SUMO (small ubiquitin-like modifier) modification is a dynamic and reversible process that is catalyzed by SUMO-specific E1, E2, and E3 ligases and reversed by a family of SENPs (SUMO/Sentrin-specific proteases). SUMOylation covalently conjugates numerous cellular proteins, and affects their cellular localization and biological activity in numerous cellular processes. A wide range of neuronal proteins have been identified as SUMO substrates, and the disruption of SUMOylation results in defects in synaptic plasticity, neuronal excitability, and neuronal stress responses. SUMOylation disorders cause many neurodegenerative diseases, such as Parkinson's disease, Alzheimer's disease, and Huntington's disease. By modulating the ion channel subunit, SUMOylation imbalance is responsible for the development of various channelopathies. The regulation of protein SUMOylation in neurons may provide a new strategy for the development of targeted therapeutic drugs for neurodegenerative diseases and channelopathies.

Topics & Concepts

SUMO proteinFunction (biology)NeuroscienceCognitive scienceBiologyPsychologyCell biologyGeneticsUbiquitinGeneUbiquitin and proteasome pathwaysMacrophage Migration Inhibitory FactorProtein Tyrosine Phosphatases
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