GLUT3-mediated cigarette smoke-induced epithelial-mesenchymal transition in chronic obstructive pulmonary disease through the NF-kB/ZEB1 pathway

IF 4.7 2区医学 Q1 RESPIRATORY SYSTEM

Respiratory Research Pub Date : 2024-04-09 DOI:10.1186/s12931-024-02785-3

Yu Ding, Ziteng Wang, Zheming Zhang, Rong You, Yan Wu, Tao Bian

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Abstract

Airway remodelling plays an important role in the pathogenesis of chronic obstructive pulmonary disease (COPD). Epithelial–mesenchymal transition (EMT) is a significant process during the occurrence of airway remodelling. Increasing evidence suggests that glucose transporter 3 (GLUT3) is involved in the epithelial mesenchymal transition (EMT) process of various diseases. However, the role of GLUT3 in EMT in the airway epithelial cells of COPD patients remains unclear. We detected the levels of GLUT3 in the peripheral lung tissue of COPD patients and cigarette smoke (CS)-exposed mice. Two Gene Expression Omnibus GEO datasets were utilised to analyse GLUT3 gene expression profiles in COPD. Western blot and immunofluorescence were used to detect GLUT3 expression. In addition, we used the AAV9-GLUT3 inhibitor to reduce GLUT3 expression in the mice model. Masson’s staining and lung function measurement were used detect the collagen deposition and penh in the mice. A cell study was performed to confirm the regulatory effect of GLUT3. Inhibition of GLUT3 expression with siRNA, Western blot, and immunofluorescence were used to detect the expression of E-cadherin, N-cadherin, vimentin, p65, and ZEB1. Based on the GEO data set analysis, GLUT3 expression in COPD patients was higher than in non-smokers. Moreover, GLUT3 was highly expressed in COPD patients, CS exposed mice, and BEAS-2B cells treated with CS extract (CSE). Further research revealed that down-regulation of GLUT3 significantly alleviated airway remodelling in vivo and in vitro. Lung function measurement showed that GLUT3 reduction reduced airway resistance in experimental COPD mice. Mechanistically, our study showed that reduction of GLUT3 inhibited CSE-induced EMT by down-regulating the NF-κB/ZEB1 pathway. We demonstrate that CS enhances the expression of GLUT3 in COPD and further confirm that GLUT3 may regulate airway remodelling in COPD through the NF-κB/ZEB1 pathway; these findings have potential value in the diagnosis and treatment of COPD. The down-regulation of GLUT3 significantly alleviated airway remodelling and reduced airway resistance in vivo. Our observations uncover a key role of GLUT3 in modulating airway remodelling and shed light on the development of GLUT3-targeted therapeutics for COPD.

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GLUT3 通过 NF-kB/ZEB1 通路介导香烟烟雾诱导的慢性阻塞性肺病上皮-间质转化

气道重塑在慢性阻塞性肺病（COPD）的发病机制中扮演着重要角色。上皮-间质转化（EMT）是气道重塑过程中的一个重要过程。越来越多的证据表明，葡萄糖转运体 3（GLUT3）参与了各种疾病的上皮间质转化（EMT）过程。然而，GLUT3 在慢性阻塞性肺病患者气道上皮细胞 EMT 中的作用仍不清楚。我们检测了 COPD 患者和香烟烟雾（CS）暴露小鼠外周肺组织中 GLUT3 的水平。我们利用两个基因表达总库 GEO 数据集来分析 COPD 中 GLUT3 基因的表达谱。我们使用 Western 印迹和免疫荧光检测 GLUT3 的表达。此外，我们还使用 AAV9-GLUT3 抑制剂来降低小鼠模型中 GLUT3 的表达。马森氏染色和肺功能测定用于检测小鼠的胶原沉积和penh。细胞研究证实了 GLUT3 的调节作用。通过 siRNA 抑制 GLUT3 表达、Western 印迹和免疫荧光检测 E-cadherin、N-cadherin、vimentin、p65 和 ZEB1 的表达。根据GEO数据集分析，COPD患者的GLUT3表达高于非吸烟者。此外，GLUT3 在慢性阻塞性肺病患者、暴露于 CS 的小鼠和经 CS 提取物（CSE）处理的 BEAS-2B 细胞中高表达。进一步的研究发现，下调 GLUT3 能显著缓解体内和体外的气道重塑。肺功能测定显示，GLUT3 的减少降低了实验性慢性阻塞性肺病小鼠的气道阻力。从机理上讲，我们的研究表明，减少 GLUT3 可通过下调 NF-κB/ZEB1 通路抑制 CSE 诱导的 EMT。我们证明了 CS 会增强 COPD 中 GLUT3 的表达，并进一步证实了 GLUT3 可通过 NF-κB/ZEB1 通路调控 COPD 中的气道重塑；这些发现对 COPD 的诊断和治疗具有潜在价值。下调 GLUT3 能显著缓解气道重塑，降低体内气道阻力。我们的观察揭示了 GLUT3 在调节气道重塑中的关键作用，并为开发针对慢性阻塞性肺病的 GLUT3 靶向疗法提供了启示。

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来源期刊

Respiratory Research 医学-呼吸系统

自引率

1.70%

发文量

314

期刊介绍： Respiratory Research publishes high-quality clinical and basic research, review and commentary articles on all aspects of respiratory medicine and related diseases. As the leading fully open access journal in the field, Respiratory Research provides an essential resource for pulmonologists, allergists, immunologists and other physicians, researchers, healthcare workers and medical students with worldwide dissemination of articles resulting in high visibility and generating international discussion. Topics of specific interest include asthma, chronic obstructive pulmonary disease, cystic fibrosis, genetics, infectious diseases, interstitial lung diseases, lung development, lung tumors, occupational and environmental factors, pulmonary circulation, pulmonary pharmacology and therapeutics, respiratory immunology, respiratory physiology, and sleep-related respiratory problems.