G9a 通过转录控制铁死亡来决定神经元对炎症应激的易损性。

G9a dictates neuronal vulnerability to inflammatory stress via transcriptional control of ferroptosis.

机构信息

Institut für Neuroimmunologie und Multiple Sklerose, Zentrum für Molekulare Neurobiologie Hamburg, Universitätsklinikum Hamburg-Eppendorf, 20251 Hamburg, Germany.

Department of Pathology and Immunology, Division of Clinical Pathology, Faculty of Medicine, University of Geneva, 1211 Geneva, Switzerland.

出版信息

Sci Adv. 2022 Aug 5;8(31):eabm5500. doi: 10.1126/sciadv.abm5500.

DOI:10.1126/sciadv.abm5500

PMID:35930635

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9355351/

Abstract

Neuroinflammation leads to neuronal stress responses that contribute to neuronal dysfunction and loss. However, treatments that stabilize neurons and prevent their destruction are still lacking. Here, we identify the histone methyltransferase G9a as a druggable epigenetic regulator of neuronal vulnerability to inflammation. In murine experimental autoimmune encephalomyelitis (EAE) and human multiple sclerosis (MS), we found that the G9a-catalyzed repressive epigenetic mark H3K9me2 was robustly induced by neuroinflammation. G9a activity repressed anti-ferroptotic genes, diminished intracellular glutathione levels, and triggered the iron-dependent programmed cell death pathway ferroptosis. Conversely, pharmacological treatment of EAE mice with a G9a inhibitor restored anti-ferroptotic gene expression, reduced inflammation-induced neuronal loss, and improved clinical outcome. Similarly, neuronal anti-ferroptotic gene expression was reduced in MS brain tissue and was boosted by G9a inhibition in human neuronal cultures. This study identifies G9a as a critical transcriptional enhancer of neuronal ferroptosis and potential therapeutic target to counteract inflammation-induced neurodegeneration.

摘要

神经炎症会导致神经元应激反应，从而导致神经元功能障碍和丧失。然而，能够稳定神经元并防止其破坏的治疗方法仍然缺乏。在这里，我们发现组蛋白甲基转移酶 G9a 是一种可靶向的神经炎症易感性的表观遗传调节因子。在实验性自身免疫性脑脊髓炎 (EAE) 和多发性硬化症 (MS) 等啮齿动物模型中，我们发现 G9a 催化的抑制性表观遗传标记 H3K9me2 被神经炎症强烈诱导。G9a 的活性抑制了抗铁死亡基因，降低了细胞内谷胱甘肽水平，并触发了依赖铁的程序性细胞死亡途径铁死亡。相反，用 G9a 抑制剂对 EAE 小鼠进行药物治疗，恢复了抗铁死亡基因的表达，减少了炎症引起的神经元丢失，并改善了临床结果。同样，在 MS 脑组织中，神经元的抗铁死亡基因表达减少，而在人神经元培养物中，G9a 的抑制作用增强了这种表达。这项研究确定 G9a 是神经元铁死亡的关键转录增强因子，也是对抗炎症引起的神经退行性变的潜在治疗靶点。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e0c6/9355351/a9bd60771e22/sciadv.abm5500-f1.jpg

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G9a 通过转录控制铁死亡来决定神经元对炎症应激的易损性。

G9a dictates neuronal vulnerability to inflammatory stress via transcriptional control of ferroptosis.

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