c-Myc 赖氨酸 148 处的乙酰化可保护缺血后的神经元。

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
V V Guzenko, S S Bachurin, V A Dzreyan, A M Khaitin, Y N Kalyuzhnaya, S V Demyanenko
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引用次数: 0

摘要

本研究的重点是了解 c-Myc(一种癌症相关转录因子)在缺血性中风后半影区中的作用。虽然它参与细胞死亡和存活已得到公认,但其翻译后修饰,尤其是乙酰化,在缺血模型中仍未得到充分研究。研究这些修饰对控制 c-Myc 在中枢神经系统中的活性具有重要的临床意义。虽然以往有关 c-Myc 乙酰化的研究仅限于非神经元细胞,但我们的研究考察了中风恢复过程中其在病灶周围细胞中的表达,以探索通过乙酰化进行调控的机制。我们发现,在脑卒中急性期,c-Myc 在梗死周围神经元中的乙酰化上调至 K148,而不是 K323,SIRT2 去乙酰化酶主要影响 K148 的乙酰化。分子动力学模拟表明,赖氨酸 148 在稳定 c-Myc 空间结构方面起着至关重要的作用。K148 处的乙酰化增加会降低 c-Myc 的压实度,从而可能限制其核穿透,促进钙蛋白酶介导的裂解,并降低核定位。此外,K148 处的细胞质乙酰化可能会改变 c-Myc 与不明蛋白的相互作用,从而可能影响其促凋亡作用并促进细胞质积累。用选择性抑制剂靶向 SIRT2 可能是未来中风治疗策略的一个很有前景的途径。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Acetylation of c-Myc at Lysine 148 Protects Neurons After Ischemia.

Acetylation of c-Myc at Lysine 148 Protects Neurons After Ischemia.

This study focuses on understanding the role of c-Myc, a cancer-associated transcription factor, in the penumbra following ischemic stroke. While its involvement in cell death and survival is recognized, its post-translational modifications, particularly acetylation, remain understudied in ischemia models. Investigating these modifications could have significant clinical implications for controlling c-Myc activity in the central nervous system. Although previous studies on c-Myc acetylation have been limited to non-neuronal cells, our research examines its expression in perifocal cells during stroke recovery to explore regulatory mechanisms via acetylation. We found that in peri-infarct neurons, c-Myc is upregulated with acetylation at K148 but not K323 during the acute phase of stroke, with SIRT2 deacetylase primarily affecting K148 acetylation. Molecular dynamics simulations suggest that lysine 148 plays a crucial role in stabilizing c-Myc spatial structure. Increased acetylation at K148 reduces c-Myc compaction, potentially limiting its nuclear penetration, promoting calpain-mediated cleavage, and decreasing nuclear localization. Additionally, cytoplasmic acetylation at K148 may alter c-Myc's interaction with unidentified proteins, potentially influencing its pro-apoptotic effects and promoting cytoplasmic accumulation. Targeting SIRT2 with selective inhibitors could be a promising avenue for future stroke therapy strategies.

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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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