Nanoplastics aggravate severe asthma by inducing DNA damage of alveolar type Ⅱ epithelial cells

Nanoplastics aggravate severe asthma by inducing DNA damage of alveolar type Ⅱ epithelial cells

Objective·To explore the effects and possible molecular mechanisms of nanoplastics (NPs) on severe asthma.Methods·A mouse model of severe asthma was established by using house dust mite (HDM) and lipopolysaccharide (LPS) co-stimulation. Polystyrene nanoplastics (PS-NPs) were instilled into the sever...

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Main Authors: SHI Zelun, WANG Qing, HE Wen, FU Weijia, WANG Yingwen, HAN Xiao, ZHANG Xiaobo
Format: Article
Language:zho
Published: Editorial Office of Journal of Shanghai Jiao Tong University (Medical Science) 2024-11-01
Series:Shanghai Jiaotong Daxue xuebao. Yixue ban
Subjects:
severe asthma
nanoplastic
alveolar type ⅱ epithelial cell
dna damage
atr/chk1/p53 signaling pathway
Online Access:https://xuebao.shsmu.edu.cn/article/2024/1674-8115/1674-8115-2024-44-11-1391.shtml
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Summary:Objective·To explore the effects and possible molecular mechanisms of nanoplastics (NPs) on severe asthma.Methods·A mouse model of severe asthma was established by using house dust mite (HDM) and lipopolysaccharide (LPS) co-stimulation. Polystyrene nanoplastics (PS-NPs) were instilled into the severe asthma mice′s airways. Subsequently, bronchoalveolar lavage fluid (BALF) was collected and lung tissue sections were prepared. Flow cytometry, hematoxylin-eosin (H-E) staining, periodic acid-Schiff (PAS) staining, immunohistochemistry, and terminal dexynucleotidyl transferase-mediated dUTP nick-end labeling (TUNEL) staining, were used to observe the effects of PS-NPs on airway inflammation, mucus secretion, alveolar structure, and the proliferation and apoptosis of alveolar type Ⅱ epithelial cells (AT2 cells) in severe asthma mice. The CCK-8 assay and Annexin Ⅴ/PI double staining were performed to evaluate the effects of PS-NPs on the proliferation and apoptosis of the mouse AT2 cell line MLE-12. DNA damage in AT2 cells caused by PS-NPs was detected by using anti-γ-H2A.X immunofluorescence staining. The expression of genes in the ATR/Chk1/p53 signaling pathway was detected by real-time fluorescent quantitative polymerase chain reaction (qPCR), Western blotting, Tyramide signal amplification (TSA) multiplex immunofluorescence staining, and immunofluorescence co-localization, respectively. The ATR-specific inhibitor Ceralasertib (AZD6738) was administrated to MLE-12 cells in combination with PS-NPs to evaluate the recovery effect on cell proliferation and apoptosis.Results·Flow cytometry revealed that exposure to PS-NPs increased the total number of inflammatory cells and the number of each type of inflammatory cells in the BALF of mice with severe asthma, with a predominance of neutrophils. H-E and PAS staining showed significant increase in airway inflammatory cell infiltration and mucus secretion, as well as disruption of alveolar structure. In vitro, the CCK-8 assay demonstrated significant, dose-dependent inhibition of MLE-12 cell proliferation by PS-NPs. The Annexin V/PI double staining assay indicated a higher apoptosis rate of (56.20±3.84)% in PS-NP-exposed cells compared to (23.22±2.52)% in the control group. Immunofluorescence staining demonstrated that PS-NPs were phagocytosed by MLE-12 cells and localized around the nucleus. TUNEL staining confirmed enhanced apoptosis in AT2 cells in vivo. The immunofluorescence assay revealed that compared to the control group, the expression of the DNA damage marker γ-H2A.X increased in the experimental group. qPCR, Western blotting, and TSA multiplex staining results showed that PS-NP-induced elevated expression of mRNA and proteins was related to the ATR/Chk1/p53 pathway in MLE-12 cells. Moreover, immunofluorescence co-localization also confirmed the induction of ATR and p53 proteins in AT2 cells in vivo. The ATR-specific inhibitor Ceralasertib partially restored the PS-NP-induced inhibition of cell proliferation and enhancement of apoptosis in MLE-12 cells.Conclusion·NPs exposure leads to DNA damage in AT2 cells, activating the ATR/Chk1/p53 signaling pathway and exacerbating airway inflammation and alveolar damage in mice with severe asthma.
ISSN:1674-8115

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