NF-κB/RelA signaling in secretoglobin progenitors mediates plasticity and MMP-induced barrier disruption in house dust mite-induced allergic asthma.

IF 3.6 2区 医学 Q1 PHYSIOLOGY American journal of physiology. Lung cellular and molecular physiology Pub Date : 2024-07-01 Epub Date: 2024-05-07 DOI:10.1152/ajplung.00066.2024
Melissa E Skibba, Allan R Brasier
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Abstract

The mechanisms how aeroallergens induce sensitization are incompletely understood. The house dust mite (HDM) Dermatophagoides pteronyssius (Der p) is a ubiquitous aeroallergen that represents a major cause of allergic rhinitis and asthma. Herein, we tested whether HDM-induced aeroallergen exposure sensitivity is caused by the innate-immune response in small airway epithelial cells. HDM exposure is a rapid activator of NF-κB/RelA in the Secretoglobin (Scgb1a1+) lineage associated with upregulation of NF-κB/RelA-dependent markers of epithelial plasticity. To determine the effect of epithelial NF-κB signaling, NF-κB was depleted in a tamoxifen (TMX)-inducible Scgb1a1-CreERTM mouse within a CL57B/L6 background. Corn oil or TMX-treated/RelA-depleted [RelA knockdown (KD)] mice were repetitively exposed to airway HDM challenges to induce airway hyperresponsiveness (AHR). Strikingly, we observed that HDM induces hallmarks of epithelial plasticity through upregulation of the mesenchymal core factors SNAI1 and ZEB1 and production of metalloproteinase (MMP)9 that are RelA-dependent. Downstream, HDM-induced mucous metaplasia, Th2 polarization, allergen sensitivity, and airway hyperreactivity were all reduced in the RelA-depleted mice. Mechanistically, HDM-induced functional and structural barrier disruption was dependent on RelA signaling and associated with active MMP secretion into the bronchoalveolar lavage fluid. To establish the role of MMP2/9 in barrier disruption, we observe that a small-molecule MMP inhibitor (SB-3CT) blocked HDM-induced barrier disruption and activation of plasticity in naïve wild-type (WT) mice. Loss of functional barrier was associated with MMP disruption of zona occludens (ZO)-1 containing adherens junctions. Overall, this data indicates that host innate signaling in the Scgb1a1+ progenitors is directly linked to epithelial plasticity, MMP9 secretion, and enhanced barrier permeability that allows allergen penetration, sensitization producing allergic asthma (AA) in vivo. We propose that maintenance of epithelial integrity may reduce allergic sensitization and AA.NEW & NOTEWORTHY Allergic asthma from house dust mite (HDM) allergy causes substantial morbidity. This study examines the dynamic changes in small airway epithelial cells in a mouse model of HDM exposure. Our findings indicate that NF-κB/RelA signaling mediates matrix metalloproteinase production, disrupting the epithelial barrier resulting in allergic sensitization. Our findings bring new insight into mechanisms for epithelial cell-state change in the allergen response, creating a potential therapeutic pathway for maintaining barrier function in asthma.

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在屋尘螨诱发的过敏性哮喘中,分泌胶原蛋白祖细胞中的 NFkB/RelA 信号介导了可塑性和 MMP 诱导的屏障破坏。
屋尘螨(HDM)是导致过敏性鼻炎和哮喘的主要原因。我们测试了小气道上皮细胞的先天性免疫反应是否会导致接触 HDM 引起的过敏原敏感性。接触 HDM 会迅速激活 Secretoglobin(Scgb1a1+)系中的 NFkB/RelA,并上调上皮可塑性标记。为了确定上皮 NFkB 信号传导的影响,在 CL57B/L6 背景的他莫昔芬(TMX)诱导的 Scgb1a1-CreERTM 小鼠中删除了 NFkB。将玉米油或 TMX 处理/RelA 贫化(RelA KD)的小鼠重复暴露于气道 HDM 挑战以诱导气道高反应性(AHR)。令人震惊的是,我们观察到 HDM 通过上调间充质核心因子 SNAI1 和 ZEB1 以及 MMP9 的产生诱导上皮可塑性的特征,而这些都依赖于 RelA。在下游,RelA 缺失的小鼠的 HDM 诱导的粘液新生、Th2 极化、过敏原敏感性和气道高反应性都有所降低。从机理上讲,HDM诱导的功能性和结构性屏障破坏依赖于RelA信号传导,并与支气管肺泡灌洗液中活跃的MMP分泌有关。为了确定 MMP2/9 在屏障破坏中的作用,我们观察到小分子 MMP 抑制剂(SB-3CT)阻断了 HDM 诱导的屏障破坏,并激活了天真野生型小鼠的可塑性。功能性屏障的丧失与含有 ZO-1 黏附连接的 MMP 破坏有关。总之,这些数据表明,Scgb1a1+祖细胞中的宿主先天信号与上皮可塑性、MMP9分泌和屏障通透性增强直接相关,而屏障通透性增强可使过敏原渗透、致敏,从而在体内产生过敏性哮喘(AA)。我们认为,保持上皮的完整性可减少过敏性哮喘的发生。
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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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