ALDH2/eIF3E 相互作用可调节对急性心肌缺血损伤中心肌细胞铁突变至关重要的蛋白质翻译

Xin Chen, Xiujian Yu, Xiaodong Xu, Rui Li, Ningning Liang, Lili Zhang, Luxiao Li, Jingyu Zhang, Mingyao Zhou, Tongwei Lv, Haoran Ma, Yongqiang Wang, Yanwen Ye, Chunzhao Yin, Shiting Chen, Hui Huang, Jinwei Tian, Aijun Sun, Weiyuan Wang, Dewen Yan, Pan Li, Huang-Tian Yang, Shanshan Zhong, Huiyong Yin
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This study aims to investigate the role of ALDH2 and ferroptosis in MI.\nMethods: A Chinese cohort of 177 acute heart failure patients with ALDH2 wild type and ALDH2 *2 were enrolled. MI mouse model of left anterior descending coronary artery ligation (LAD) was conducted on wild type, ALDH2 *2, and mice with cardiomyocyte-specific knock down of eukaryotic translation initiation factor 3 subunit E (eIF3E) by adeno-associated virus. The lipid peroxidation products were measured by mass spectrometry-based lipidomics and metabolomics in human plasma and mouse serum samples as well as in mouse heart tissues. Results: Human ALDH2 *2 carriers exhibit more severe heart failure post-AMI with features of ferroptosis in blood samples through lipidomic analysis, including increased levels of multiple classes of oxidized phospholipids, and decreased levels of antioxidants, such as Coenzyme Q-10 (Co-Q10) and tetrahydrobiopterin (BH4). Similar features were observed in MI mouse models of ALDH2 *2, whereas ferroptosis inhibition by Fer-1 significantly improved heart functions and reversed ferroptosis markers. Importantly, ALDH2 *2 led to significantly decreased protein levels of ALDH2, whereas ferroptosis related proteins including Transferrin receptor (TFRC), Acyl-CoA synthetase long chain family member 4 (ACSL4), and Heme oxygenase 1 (HMOX1) were upregulated specifically in the infarct heart tissues. Mechanistically, ALDH2 physically interacted with eIF3E to modulate translation of critical proteins involved in ferroptosis, and ALDH2 deficiency in ALDH2 *2 mutant predisposes cardiomyocytes to ferroptosis by promoting Tfrc/Acsl4/Hmox1 translation. 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引用次数: 0

摘要

背景:作为一种由脂质过氧化引起的铁依赖性调节细胞死亡形式,铁变态反应与缺血性损伤有关,但其在急性心肌梗死(AMI)中的潜在机制仍不十分明确。乙醛脱氢酶 2(ALDH2)催化脂质过氧化产生的脂醛和饮酒产生的乙醛的解毒作用。ALDH2的Glu504Lys多态性(rs671,ALDH2 *2)影响着全球约8%的人口和40%的东亚人,与心肌梗死风险的增加有关。本研究旨在探讨 ALDH2 和铁变态反应在心肌梗死中的作用:方法:研究人员招募了 177 名中国急性心力衰竭患者,其中包括 ALDH2 野生型和 ALDH2 *2。对野生型、ALDH2 *2和通过腺相关病毒特异性敲除真核细胞翻译起始因子3亚基E(eIF3E)的心肌细胞进行左冠状动脉前降支结扎(LAD)的心肌缺血小鼠模型试验。通过基于质谱的脂质组学和代谢组学测量了人血浆和小鼠血清样本以及小鼠心脏组织中的脂质过氧化产物。研究结果通过脂质组学分析,人类 ALDH2 *2携带者在急性心肌梗死后表现出更严重的心力衰竭,血液样本中存在铁变态反应特征,包括多种氧化磷脂水平升高,辅酶Q-10(Co-Q10)和四氢生物蝶呤(BH4)等抗氧化剂水平降低。在ALDH2 *2的心肌梗死小鼠模型中也观察到了类似的特征,而通过Fer-1抑制铁变态反应可显著改善心脏功能并逆转铁变态反应标记物。重要的是,ALDH2 *2导致ALDH2蛋白水平明显降低,而铁变态反应相关蛋白包括转铁蛋白受体(TFRC)、酰基-CoA合成酶长链家族成员4(ACSL4)和血红素加氧酶1(HMOX1)在梗死心脏组织中特异性上调。从机理上讲,ALDH2与eIF3E发生物理相互作用,调节参与铁变态反应的关键蛋白的翻译,ALDH2 *2突变体中ALDH2的缺乏会促进Tfrc/Acsl4/Hmox1的翻译,从而使心肌细胞易发生铁变态反应。同样,心肌细胞特异性 eIF3E 敲除可通过减轻心肌缺血中的铁突变来恢复 ALDH2 *2 的心脏功能:结论:ALDH2 *2通过促进心肌细胞铁蛋白沉积加重急性心肌梗死中的急性心力衰竭,靶向铁蛋白沉积可能是治疗急性心肌梗死的潜在治疗靶点,尤其是对于ALDH2 *2携带者。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
ALDH2/eIF3E Interaction Modulates Protein Translation Critical for Cardiomyocyte Ferroptosis in Acute Myocardial Ischemia Injury
Background: As an iron-dependent form of regulated cell death caused by lipid peroxidation, ferroptosis has been implicated in ischemic injury but the underlying mechanisms in acute myocardial infarction (AMI) remain poorly defined. Acetaldehyde dehydrogenase 2 (ALDH2) catalyzes detoxification of lipid aldehydes derived from lipid peroxidation and acetaldehydes from alcohol consumption. The Glu504Lys polymorphism of ALDH2 (rs671, ALDH2 *2), affecting around 8% world population and 40% East Asians, is associated with increased risk of MI. This study aims to investigate the role of ALDH2 and ferroptosis in MI. Methods: A Chinese cohort of 177 acute heart failure patients with ALDH2 wild type and ALDH2 *2 were enrolled. MI mouse model of left anterior descending coronary artery ligation (LAD) was conducted on wild type, ALDH2 *2, and mice with cardiomyocyte-specific knock down of eukaryotic translation initiation factor 3 subunit E (eIF3E) by adeno-associated virus. The lipid peroxidation products were measured by mass spectrometry-based lipidomics and metabolomics in human plasma and mouse serum samples as well as in mouse heart tissues. Results: Human ALDH2 *2 carriers exhibit more severe heart failure post-AMI with features of ferroptosis in blood samples through lipidomic analysis, including increased levels of multiple classes of oxidized phospholipids, and decreased levels of antioxidants, such as Coenzyme Q-10 (Co-Q10) and tetrahydrobiopterin (BH4). Similar features were observed in MI mouse models of ALDH2 *2, whereas ferroptosis inhibition by Fer-1 significantly improved heart functions and reversed ferroptosis markers. Importantly, ALDH2 *2 led to significantly decreased protein levels of ALDH2, whereas ferroptosis related proteins including Transferrin receptor (TFRC), Acyl-CoA synthetase long chain family member 4 (ACSL4), and Heme oxygenase 1 (HMOX1) were upregulated specifically in the infarct heart tissues. Mechanistically, ALDH2 physically interacted with eIF3E to modulate translation of critical proteins involved in ferroptosis, and ALDH2 deficiency in ALDH2 *2 mutant predisposes cardiomyocytes to ferroptosis by promoting Tfrc/Acsl4/Hmox1 translation. Consistently, cardiomyocytes-specific eIF3E knock down restored ALDH2 *2 cardiac function by attenuating ferroptosis in MI. Conclusions: ALDH2 *2 aggravates acute heart failure in MI through promoting cardiomyocytes ferroptosis, and targeting ferroptosis may be a potential therapeutic target for treating AMI, especially for ALDH2 *2 carriers.
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