Goblet cell breakdown: transcriptomics reveals Acinetobacter baumannii early and robust inflammatory response in differentiated human bronchial epithelial cells.

IF 9 2区医学 Q1 CELL BIOLOGY

Journal of Biomedical Science Pub Date : 2025-07-09 DOI:10.1186/s12929-025-01159-1

Daniela Scribano, Claudia Tito, Astri D Tagueha, Martina Pasqua, Luciana De Angelis, Francesco Fazi, Dolores Limongi, Marta De Angelis, Lucia Nencioni, Anna Teresa Palamara, Cecilia Ambrosi

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引用次数: 0

Abstract

Background: The airway epithelium represents the first line of defense of the lungs, functioning both as a physical barrier as well as an active immune modulator. However, in the last years, pneumonia caused by the opportunistic pathogen Acinetobacter baumannii have become difficult to treat due to the increase of the number of extensively drug resistant strains. In this study, we report for the first time the use of an ex vivo air-liquid interface (ALI) model of differentiated human bronchial epithelial cells to unravel the early response to A. baumannii infection.

Methods: Epithelial integrity, tissue architecture, and goblet cell function were assessed through FITC-dextran permeability assays, hematoxylin and eosin staining, and indirect immunofluorescence. Transcriptomic profiling was performed to characterize host gene expression changes.

Results: Initial tissue damage began as early as at 4 h post-infection (hpi); at 24 hpi, goblet cell hypertrophy, reduced mucin secretion, and compromised epithelial integrity were highly evident. Transcriptomic data at 4 hpi revealed 668 differentially expressed genes (441 upregulated, 227 downregulated), mainly involved in a strong pro-inflammatory response and characterized by IL-8/CCL20-driven neutrophil recruitment and type 2 cytokine activation (IL-4, IL-13). Noteworthy, genes related to cytoskeletal organization, adhesion, and extracellular matrix remodeling were significantly altered, suggesting a bacterial mechanism to enhanced tissue dissemination. The PI3K-Akt survival pathway was inhibited, with downregulation of PIK3R1 and PIK3R2 genes, implying the induction of apoptosis/cell death and epithelial damage. Our findings are in agreement with previous in vivo studies, further strengthening the value of our ALI model in mimicking the early infection response of bronchial cells to A. baumannii infection.

Conclusion: Our data highlight the early molecular mechanisms underlying A. baumannii pathogenesis and open new avenues for future investigations for therapeutic interventions.

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杯状细胞分解：转录组学揭示了鲍曼不动杆菌在分化的人支气管上皮细胞中早期和强烈的炎症反应。

背景：气道上皮是肺的第一道防线，既是物理屏障，也是主动免疫调节剂。然而，在过去几年中，由于广泛耐药菌株数量的增加，由机会致病菌鲍曼不动杆菌引起的肺炎已变得难以治疗。在这项研究中，我们首次报道了使用体外气液界面（ALI）模型分化的人支气管上皮细胞来揭示鲍曼不动杆菌感染的早期反应。方法：通过fitc -葡聚糖渗透性测定、苏木精和伊红染色以及间接免疫荧光法评估上皮完整性、组织结构和杯状细胞功能。转录组学分析表征宿主基因表达变化。结果：初始组织损伤早在感染后4 h （hpi）开始；24 hpi时，杯状细胞肥大，黏液分泌减少，上皮完整性受损非常明显。4hpi时的转录组学数据显示668个差异表达基因（441个上调，227个下调），主要参与强烈的促炎反应，并以IL-8/ ccl20驱动的中性粒细胞募集和2型细胞因子激活（IL-4, IL-13）为特征。值得注意的是，与细胞骨架组织、黏附和细胞外基质重塑相关的基因显著改变，表明细菌机制增强了组织传播。PI3K-Akt存活通路被抑制，PIK3R1和PIK3R2基因下调，暗示诱导凋亡/细胞死亡和上皮损伤。我们的发现与之前的体内研究一致，进一步加强了我们的ALI模型在模拟支气管细胞对鲍曼不动杆菌感染的早期感染反应方面的价值。结论：我们的数据强调了鲍曼不动杆菌发病机制的早期分子机制，为未来的治疗干预研究开辟了新的途径。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Biomedical Science 医学-医学：研究与实验

CiteScore

18.50

自引率

0.90%

发文量

审稿时长

1 months

期刊介绍： The Journal of Biomedical Science is an open access, peer-reviewed journal that focuses on fundamental and molecular aspects of basic medical sciences. It emphasizes molecular studies of biomedical problems and mechanisms. The National Science and Technology Council (NSTC), Taiwan supports the journal and covers the publication costs for accepted articles. The journal aims to provide an international platform for interdisciplinary discussions and contribute to the advancement of medicine. It benefits both readers and authors by accelerating the dissemination of research information and providing maximum access to scholarly communication. All articles published in the Journal of Biomedical Science are included in various databases such as Biological Abstracts, BIOSIS, CABI, CAS, Citebase, Current contents, DOAJ, Embase, EmBiology, and Global Health, among others.