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缺氧诱导因子 3α(HIF-3α)通过 HIF-3α-GPx4 轴抑制肺泡上皮细胞铁死亡,从而预防 COPD。

Hypoxia inducible factor (HIF) 3α prevents COPD by inhibiting alveolar epithelial cell ferroptosis via the HIF-3α-GPx4 axis.

机构信息

China-Japan Friendship Hospital (Institute of Clinical Medical Sciences), Chinese Academy of Medical Sciences & Peking Union Medical College, Beijing, CN.

National Center for Respiratory Medicine; State Key Laboratory of Respiratory Health and Multimorbidity, Beijing, CN.

出版信息

Theranostics. 2024 Aug 28;14(14):5512-5527. doi: 10.7150/thno.99237. eCollection 2024.

DOI:10.7150/thno.99237
PMID:39310101
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11413794/
Abstract

COPD patients are largely asymptomatic until the late stages when prognosis is generally poor. In this study, we shifted the focus to pre-COPD and smoking stages, and found enrichment of hypoxia inducible factor (HIF)-3α is in pre-COPD samples. Smoking induced regional tissue hypoxia and emphysema have been found in COPD patients. However, the mechanisms underlying hypoxia especially HIF-3α and COPD have not been investigated. We performed bulk-RNA sequencing on 36 peripheral lung tissue specimens from non-smokers, smokers, pre-COPD and COPD patients, and using "Mfuzz" algorithm to analysis the dataset dynamically. GSE171541 and EpCAM co-localization analyses were used to explore HIF-3α localization. Further, knock-in mice and small molecular inhibitors were used to explore the involvement of HIF-3α in the pathophysiology of COPD. Reactive oxygen species (ROS) and hypoxia were enriched in pre-COPD samples, and HIF-3α was downregulated in alveolar epithelial cells in COPD. experiments using lentivirus transfection, bulk-RNA seq, and RSL3 showed that the activation of the HIF-3α-GPx4 axis inhibited alveolar epithelial cell ferroptosis when treated with cigarettes smoking extracts (CSE). Further results from knock-in mice demonstrated overexpression of HIF-3α inhibited alveolar epithelial cells ferroptosis and prevented the decline of lung function. Hypoxia and oxidation-related damage begins years before the onset of COPD symptoms, suggesting the imbalance and impairment of intracellular homeostatic system. The activation of the HIF-3α-GPx4 axis is a promising treatment target. By leveraging this comprehensive analysis method, more potential targets could be found and enhancing our understanding of the pathogenesis.

摘要

COPD 患者在晚期才会出现明显症状,此时预后通常较差。在本研究中,我们将重点转移到 COPD 前和吸烟阶段,并发现 COPD 前样本中缺氧诱导因子 (HIF)-3α 富集。在 COPD 患者中,已经发现吸烟引起的区域性组织缺氧和肺气肿。然而,缺氧特别是 HIF-3α 与 COPD 的相关机制尚未得到研究。我们对 36 名非吸烟者、吸烟者、COPD 前和 COPD 患者的外周肺组织标本进行了批量 RNA 测序,并使用“Mfuzz”算法对数据集进行动态分析。GSE171541 和 EpCAM 共定位分析用于探索 HIF-3α 的定位。此外,使用 knock-in 小鼠和小分子抑制剂来探索 HIF-3α 在 COPD 病理生理学中的作用。活性氧 (ROS) 和缺氧在 COPD 前样本中富集,HIF-3α 在 COPD 肺泡上皮细胞中下调。使用慢病毒转染、批量 RNA 测序和 RSL3 的实验表明,HIF-3α-GPx4 轴的激活抑制了香烟烟雾提取物 (CSE) 处理时肺泡上皮细胞的铁死亡。进一步来自 knock-in 小鼠的结果表明,HIF-3α 的过表达抑制了肺泡上皮细胞的铁死亡,并防止了肺功能的下降。缺氧和氧化相关的损伤在 COPD 症状出现前数年就已经开始,提示细胞内稳态系统的失衡和损伤。HIF-3α-GPx4 轴的激活是一种有前途的治疗靶点。通过利用这种全面的分析方法,可以发现更多的潜在靶点,并加深我们对发病机制的理解。

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