The lung extracellular matrix protein landscape in severe early-onset and moderate chronic obstructive pulmonary disease.

IF 3.6 2区 医学 Q1 PHYSIOLOGY
Mugdha M Joglekar, Nicolaas J Bekker, Maunick Lefin Koloko Ngassie, Judith M Vonk, Theo Borghuis, Marjan Reinders-Luinge, Janna Bakker, Roy R Woldhuis, Simon D Pouwels, Barbro N Melgert, Wim Timens, Corry-Anke Brandsma, Janette K Burgess
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引用次数: 0

Abstract

Extracellular matrix (ECM) remodeling has been implicated in the irreversible obstruction of airways and destruction of alveolar tissue in chronic obstructive pulmonary disease (COPD). Studies investigating differences in the lung ECM in COPD have mainly focused on some collagens and elastin, leaving an array of ECM components unexplored. We investigated the differences in the ECM landscape comparing severe-early onset (SEO)-COPD and moderate COPD to control lung tissue for collagen type I α chain 1 (COL1A1), collagen type VI α chain 1 (COL6A1); collagen type VI α chain 2 (COL6A2), collagen type XIV α chain 1 (COL14A1), fibulin 2 and 5 (FBLN2 and FBLN5), latent transforming growth factor β binding protein 4 (LTBP4), lumican (LUM), versican (VCAN), decorin (DCN), and elastin (ELN) using image analysis and statistical modeling. Percentage area and/or mean intensity of expression of LUM in the parenchyma, and COL1A1, FBLN2, LTBP4, DCN, and VCAN in the airway walls, was proportionally lower in COPD compared to controls. Lowered levels of most ECM proteins were associated with decreasing forced expiratory volume in 1 s (FEV1) measurements, indicating a relationship with disease severity. Furthermore, we identified six unique ECM signatures where LUM and COL6A1 in parenchyma and COL1A1, FBLN5, DCN, and VCAN in airway walls appear essential in reflecting the presence and severity of COPD. These signatures emphasize the need to examine groups of proteins to represent an overall difference in the ECM landscape in COPD that are more likely to be related to functional effects than individual proteins. Our study revealed differences in the lung ECM landscape between control and COPD and between SEO and moderate COPD signifying distinct pathological processes in the different subgroups.NEW & NOTEWORTHY Our study identified chronic obstructive pulmonary disease (COPD)-associated differences in the lung extracellular matrix (ECM) composition. We highlight the compartmental differences in the ECM landscape in different subtypes of COPD. The most prominent differences were observed for severe-early onset COPD. Moreover, we identified unique ECM signatures that describe airway walls and parenchyma providing insight into the intertwined nature and complexity of ECM changes in COPD that together drive ECM remodeling and may contribute to disease pathogenesis.

重度早发和中度慢性阻塞性肺病的肺细胞外基质蛋白图谱。
细胞外基质(ECM)重塑与慢性阻塞性肺病(COPD)中气道的不可逆阻塞和肺泡组织的破坏有关。对慢性阻塞性肺病患者肺内 ECM 差异的研究主要集中在一些胶原蛋白和弹性蛋白上,而对一系列 ECM 成分的研究尚未展开。我们研究了重度早发(SEO-)慢性阻塞性肺病和中度慢性阻塞性肺病与对照肺组织相比,在胶原 I 型 α 链 1 (COL1A1)、COL6A1、COL6A2、COL14A1、纤维蛋白 2 和 5 (Fibulin 2 和 5) 的 ECM 结构中的差异、通过图像分析和统计建模,对 COPD 和对照肺组织的胶原 I 型 α 链 1 (COL1A1)、COL6A1、COL6A2、COL14A1、纤维蛋白 2 和 5 (FBLN2、FBLN5)、潜伏转化生长因子-β 结合蛋白 4 (LTBP4)、lumican (LUM)、versican (VCAN)、decorin (DCN) 和 elastin (ELN) 进行检测。与对照组相比,慢性阻塞性肺病患者肺实质中 LUM 的表达百分比面积和/或平均强度,以及气道壁中 COL1A1、FBLN2、LTBP4、DCN 和 VCAN 的表达百分比面积和/或平均强度都成比例地降低。大多数 ECM 蛋白水平的降低与 FEV1 测量值的下降有关,这表明它们与疾病的严重程度有关。此外,我们还发现了六种独特的 ECM 特征,其中实质中的 LUM 和 COL6A1 以及气道壁中的 COL1A1、FBLN5、DCN 和 VCAN 对反映 COPD 的存在和严重程度至关重要。这些特征强调有必要研究代表 COPD 中 ECM 整体差异的蛋白质组,这些蛋白质组比单个蛋白质更有可能与功能效应有关。我们的研究揭示了对照组和慢性阻塞性肺病组之间以及 SEO 和中度慢性阻塞性肺病组之间肺 ECM 结构的差异,这标志着不同亚组的不同病理过程。
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来源期刊
CiteScore
9.20
自引率
4.10%
发文量
146
审稿时长
2 months
期刊介绍: The American Journal of Physiology-Lung Cellular and Molecular Physiology publishes original research covering the broad scope of molecular, cellular, and integrative aspects of normal and abnormal function of cells and components of the respiratory system. Areas of interest include conducting airways, pulmonary circulation, lung endothelial and epithelial cells, the pleura, neuroendocrine and immunologic cells in the lung, neural cells involved in control of breathing, and cells of the diaphragm and thoracic muscles. The processes to be covered in the Journal include gas-exchange, metabolic control at the cellular level, intracellular signaling, gene expression, genomics, macromolecules and their turnover, cell-cell and cell-matrix interactions, cell motility, secretory mechanisms, membrane function, surfactant, matrix components, mucus and lining materials, lung defenses, macrophage function, transport of salt, water and protein, development and differentiation of the respiratory system, and response to the environment.
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