翻译后蛋白质乙酰化和去乙酰化在外周神经系统神经元凋亡中的作用

IF 1.1 Q4 CELL BIOLOGY
V. A. Dzreyan, S. V. Demyanenko
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引用次数: 0

摘要

摘要-神经创伤是导致人类残疾和死亡的主要原因之一。然而,外周神经系统细胞存活和死亡的机制仍未完全明了。转录因子 p53 和 E2F1 是细胞基本功能的主要调节因子,包括 DNA 修复、细胞周期、新陈代谢和细胞凋亡。在一些周围神经损伤的实验模型中显示的 p53 和 E2F1 的过度表达表明,这些蛋白在神经创伤的发病机制中起着重要作用。本综述讨论了 p53 和 E2F1 激活和调控的表观遗传学机制,这些机制可能有助于创伤后神经元和胶质细胞的存活或死亡。文章还探讨了进一步研究 p53 和 E2F1 蛋白调控机制(包括涉及组蛋白去乙酰化酶的机制)以开发神经保护剂的前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The Role of Post-Translational Protein Acetylation and Deacetylation in the Apoptosis of Neurons of the Peripheral Nervous System

The Role of Post-Translational Protein Acetylation and Deacetylation in the Apoptosis of Neurons of the Peripheral Nervous System

The Role of Post-Translational Protein Acetylation and Deacetylation in the Apoptosis of Neurons of the Peripheral Nervous System

Neurotrauma is among the main causes of human disability and mortality. However, the mechanisms that mediate the survival and death of cells in the peripheral nervous system are still not fully understood. The transcription factors p53 and E2F1 are the master regulators of basic cellular functions, including DNA repair, cell cycle, metabolism, and apoptosis. Overexpression of p53 and E2F1, shown in a number of experimental models of peripheral nerve injury, suggests an important role of these proteins in the pathogenesis of neurotrauma. This review discusses the epigenetic mechanisms of p53 and E2F1 activation and regulation, which may contribute to the survival or death of neurons and glial cells after traumatic injury. Prospects for further studies of the mechanisms of regulation of the p53 and E2F1 proteins, including those involving histone deacetylases, for the development of neuroprotectors are considered.

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来源期刊
CiteScore
1.40
自引率
0.00%
发文量
28
期刊介绍: Biochemistry (Moscow), Supplement Series A: Membrane and Cell Biology   is an international peer reviewed journal that publishes original articles on physical, chemical, and molecular mechanisms that underlie basic properties of biological membranes and mediate membrane-related cellular functions. The primary topics of the journal are membrane structure, mechanisms of membrane transport, bioenergetics and photobiology, intracellular signaling as well as membrane aspects of cell biology, immunology, and medicine. The journal is multidisciplinary and gives preference to those articles that employ a variety of experimental approaches, basically in biophysics but also in biochemistry, cytology, and molecular biology. The journal publishes articles that strive for unveiling membrane and cellular functions through innovative theoretical models and computer simulations.
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