Physiological and pathological effects of phase separation in the central nervous system.

IF 4.8 3区医学 Q1 GENETICS & HEREDITY

Journal of Molecular Medicine-Jmm Pub Date : 2024-05-01 Epub Date: 2024-03-05 DOI:10.1007/s00109-024-02435-7

Jiaxin Wang, Hongrui Zhu, Ruijia Tian, Qian Zhang, Haoliang Zhang, Jin Hu, Sheng Wang

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引用次数: 0

Abstract

Phase separation, also known as biomolecule condensate, participates in physiological processes such as transcriptional regulation, signal transduction, gene expression, and DNA damage repair by creating a membrane-free compartment. Phase separation is primarily caused by the interaction of multivalent non-covalent bonds between proteins and/or nucleic acids. The strength of molecular multivalent interaction can be modified by component concentration, the potential of hydrogen, posttranslational modification, and other factors. Notably, phase separation occurs frequently in the cytoplasm of mitochondria, the nucleus, and synapses. Phase separation in vivo is dynamic or stable in the normal physiological state, while abnormal phase separation will lead to the formation of biomolecule condensates, speeding up the disease progression. To provide candidate suggestions for the clinical treatment of nervous system diseases, this review, based on existing studies, carefully and systematically represents the physiological roles of phase separation in the central nervous system and its pathological mechanism in neurodegenerative diseases.

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相分离对中枢神经系统的生理和病理影响。

相分离又称生物分子凝聚物，通过形成无膜区室参与转录调控、信号转导、基因表达和 DNA 损伤修复等生理过程。相分离主要是由蛋白质和/或核酸之间的多价非共价键相互作用造成的。分子多价相互作用的强度可受成分浓度、氢的电位、翻译后修饰和其他因素的影响。值得注意的是，相分离经常发生在线粒体胞质、细胞核和突触中。体内的相分离在正常生理状态下是动态或稳定的，而异常的相分离会导致生物大分子凝聚物的形成，加速疾病的进展。为了给神经系统疾病的临床治疗提供候选建议，本综述在现有研究的基础上，仔细、系统地阐述了相分离在中枢神经系统中的生理作用及其在神经退行性疾病中的病理机制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Molecular Medicine-Jmm 医学-医学：研究与实验

CiteScore

9.30

自引率

0.00%

发文量

100

审稿时长

1.3 months

期刊介绍： The Journal of Molecular Medicine publishes original research articles and review articles that range from basic findings in mechanisms of disease pathogenesis to therapy. The focus includes all human diseases, including but not limited to: Aging, angiogenesis, autoimmune diseases as well as other inflammatory diseases, cancer, cardiovascular diseases, development and differentiation, endocrinology, gastrointestinal diseases and hepatology, genetics and epigenetics, hematology, hypoxia research, immunology, infectious diseases, metabolic disorders, neuroscience of diseases, -omics based disease research, regenerative medicine, and stem cell research. Studies solely based on cell lines will not be considered. Studies that are based on model organisms will be considered as long as they are directly relevant to human disease.