Up-regulation of PPAR-γ involved in the therapeutic effect of icariin on cigarette smoke-induced inflammation

IF 3.3 3区医学 Q2 PHARMACOLOGY & PHARMACY Pulmonary pharmacology & therapeutics Pub Date : 2023-04-01 DOI:10.1016/j.pupt.2023.102197

Qiuping Li , Hongying Zhang , Xinpeng Yan , Zhengxiao Zhao , Jian Qiu , Lingli Hu , Shan Jiang , Qing kong , Jing Sun , Lulu Li

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引用次数: 1

Abstract

Icariin (ICA) might be a potential anti-inflammatory medication in a variety of diseases including COPD, and previous studies showed that ICA could attenuate cigarette smoke (CS)-induced inflammation by inhibiting nuclear factor (NF)-κB. Peroxisome proliferator-activated receptor (PPAR) γ, a nuclear hormone receptor, has been reported to play a critical role in the inflammatory process in COPD. Whether PPAR-γ is involved in the anti-inflammatory effect of icariin on COPD has scarcely been explored. This study aimed at investigating the role of ICA in PPAR-γ expression in the CS-induced model, and then elucidating the therapeutic effects of ICA on COPD based on the PPARγ–NF–κB signaling pathway. The Beas-2B cells and H292 cells were induced with cigarette smoke extract (CSE) for 8 h after treatment with ICA for 16 h. The PPARγ expression and NF-κB pathway-related indicators were detected by western blotting, cellular immunofluorescence, and Real-time PCR. The PPARγ knock down or T0070907-treated Beas-2B cells were constructed to further investigate the relationship between the inhibition of NF-κB by ICA and PPARγ. A COPD model was established by CS exposure for 6 months, and ICA (40 mg/kg) was administrated by gastric perfusion. Then, the pulmonary function, lung histology, inflammatory cytokine levels, and protein expressions were detected. We found ICA up-regulated PPARγ protein expression in both Beas-2B cells and H292 cells, and it improved CSE-induced PPARγ down regulation and NF-κB activation. Furthermore, the inhibition of NF-κB pathway by ICA was partially dependent on PPARγ in the PPARγ knock down or T0070907-treated Beas-2B cells, suggesting that ICA attenuated CSE-induced inflammatory responses were associated with modulating the PPARγ–NF–κB pathway. Moreover, ICA showed similar effects on PPARγ and NF-κB expressions in the COPD model, and it effectively ameliorated the pulmonary function and lung inflammatory infiltration in the COPD rat model. Conclusively, the therapeutic effect of ICA on COPD was indirectly achieved by reducing airway inflammation, which was partially associated with modulating the PPARγ–NF–κB signaling pathway.

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PPAR-γ的上调参与icariin对香烟烟雾诱导炎症的治疗作用

Icariin（ICA）可能是包括COPD在内的多种疾病的潜在抗炎药物，先前的研究表明，ICA可以通过抑制核因子（NF）-κB来减轻香烟烟雾（CS）诱导的炎症。过氧化物酶体增殖物激活受体（PPAR）γ是一种核激素受体，据报道在COPD的炎症过程中起着关键作用。PPAR-γ是否参与icariin对COPD的抗炎作用，目前尚不清楚。本研究旨在研究ICA在CS诱导的模型中PPAR-γ表达中的作用，然后基于PPAR-γ-NF–κB信号通路阐明ICA对COPD的治疗作用。在用ICA处理16h后，用香烟烟雾提取物（CSE）诱导Beas-2B细胞和H292细胞8h。通过蛋白质印迹、细胞免疫荧光和实时PCR检测PPARγ表达和NF-κB通路相关指标。构建PPARγ敲除或T0070907处理的Beas-2B细胞，以进一步研究ICA对NF-κB的抑制与PPARγ之间的关系。通过CS暴露6个月建立COPD模型，并通过胃灌注给予ICA（40mg/kg）。然后，检测肺功能、肺组织学、炎性细胞因子水平和蛋白质表达。我们发现ICA上调了Beas-2B细胞和H292细胞中PPARγ蛋白的表达，并改善了CSE诱导的PPARγ下调和NF-κB活化。此外，ICA对NF-κB通路的抑制部分依赖于PPARγ敲除或T0070907处理的Beas-2B细胞中的PPARγ，这表明ICA减弱CSE诱导的炎症反应与调节PPARγ-NF–κB通路有关。此外，ICA对COPD模型中PPARγ和NF-κB表达的影响相似，并有效改善了COPD大鼠模型的肺功能和肺部炎症浸润。总之，ICA对COPD的治疗作用是通过减少气道炎症间接实现的，这部分与调节PPARγ-NF–κB信号通路有关。

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来源期刊

Pulmonary pharmacology & therapeutics 医学-呼吸系统

CiteScore

6.20

自引率

0.00%

发文量

审稿时长

42 days

期刊介绍： Pulmonary Pharmacology and Therapeutics (formerly Pulmonary Pharmacology) is concerned with lung pharmacology from molecular to clinical aspects. The subject matter encompasses the major diseases of the lung including asthma, cystic fibrosis, pulmonary circulation, ARDS, carcinoma, bronchitis, emphysema and drug delivery. Laboratory and clinical research on man and animals will be considered including studies related to chemotherapy of cancer, tuberculosis and infection. In addition to original research papers the journal will include review articles and book reviews. Research Areas Include: • All major diseases of the lung • Physiology • Pathology • Drug delivery • Metabolism • Pulmonary Toxicology.

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