EZH1 deficiency promotes ferroptosis resistance by activating NRF2 in sepsis-associated liver injury.

IF 4.8 2区医学 Q1 GENETICS & HEREDITY

Clinical Epigenetics Pub Date : 2025-06-09 DOI:10.1186/s13148-025-01892-2

Meihua Mei, Ying You, Ningxin Tan, Xiaoshun He, Junqi Huang

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Abstract

Sepsis-associated acute liver injury (SALI) is a major clinical complication of sepsis due to excessive, unfettered inflammation. In recent years, the role of epigenetic regulatory mechanisms in SALI has been gradually emphasized. Here, we investigated the effects of a Histone-lysine N-methyltransferase EZH1 (Enhancer of zeste homolog 1) inhibition on promoting ferroptosis resistance to activate nuclear factor, erythroid derived 2, like 2 (NRF2) in SALI. We found that EZH1 deficiency improved animal survival in lethal sepsis. EZH1 deficiency mice exhibited alleviated SALI with decreased hepatocellular ferroptosis. EZH1 deficiency attenuated the H3K27me3 modification in the Nfe2l2 promoter, lending to the increased expression and nuclear translocation of NRF2. In the in vitro, LPS-induced ferroptosis model, EZH1 inhibitor DS3201 exhibited an anti-ferroptosis effect, which was reversed NRF2 inhibitor ML385. These findings indicate that EZH1 deficiency or inhibition with DS3201 alleviates ferroptosis in the liver by activating the NRF2, and it is suggested that targeting EZH1 may be a new therapeutic strategy in SALI.

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EZH1缺乏通过激活NRF2在败血症相关肝损伤中促进铁中毒抵抗。

脓毒症相关急性肝损伤（SALI）是脓毒症的主要临床并发症，由于过度的，不受约束的炎症。近年来，表观遗传调控机制在SALI中的作用逐渐受到重视。在这里，我们研究了组蛋白赖氨酸n -甲基转移酶EZH1 （zeste同源物增强子1）抑制对促进SALI患者对激活核因子，红细胞衍生2，像2 （NRF2）的铁凋亡抵抗的影响。我们发现缺乏EZH1可提高致死性败血症动物的存活率。EZH1缺乏小鼠表现出SALI减轻，肝细胞铁下垂减少。EZH1缺陷减弱了Nfe2l2启动子中的H3K27me3修饰，导致NRF2的表达和核易位增加。在体外lps诱导的铁下垂模型中，EZH1抑制剂DS3201表现出抗铁下垂作用，逆转了NRF2抑制剂ML385。这些结果表明，EZH1缺乏或DS3201抑制可通过激活NRF2减轻肝脏铁下沉，提示靶向EZH1可能是SALI的一种新的治疗策略。

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

Clinical Epigenetics ONCOLOGY-

自引率

5.30%

发文量

150

期刊介绍： Clinical Epigenetics, the official journal of the Clinical Epigenetics Society, is an open access, peer-reviewed journal that encompasses all aspects of epigenetic principles and mechanisms in relation to human disease, diagnosis and therapy. Clinical trials and research in disease model organisms are particularly welcome.