骨化三醇/维生素 D 受体系统通过上调与 HIF-1α/PGC-1α 信号调节相关的线粒体生物能来减轻 PM2.5 引起的人支气管上皮损伤。

Calcitriol/vitamin D receptor system alleviates PM2.5-induced human bronchial epithelial damage through upregulating mitochondrial bioenergetics in association with regulation of HIF-1α/PGC-1α signaling.

机构信息

Princess Srisavangavadhana College of Medicine, Chulabhorn Royal Academy, Bangkok 10210, Thailand.

Department of Pharmacology, Faculty of Medicine Siriraj Hospital, Mahidol University, Bangkok 10700, Thailand.

出版信息

Environ Toxicol Pharmacol. 2024 Oct;111:104568. doi: 10.1016/j.etap.2024.104568. Epub 2024 Sep 21.

DOI:10.1016/j.etap.2024.104568

PMID:39307374

Abstract

PM2.5 exposure causes lung injury by triggering oxidative stress, mitochondrial dysfunction, and modulating HIF-1α signaling. Calcitriol activates VDR, which regulates cellular homeostasis. This study evaluated the protective role of the calcitriol/VDR system in PM2.5-induced damage to BEAS-2B bronchial epithelial cells by reducing oxidative stress, upregulating mitochondrial bioenergetics, and downregulating HIF-1α. We found that the calcitriol/VDR system decreased ROS formation and restored mitochondrial bioenergetics in PM2.5-treated cells. This improvement correlated with reduced HIF-1α nuclear translocation and increased PGC-1α protein and mitochondrial gene expressions. This study is the first to suggest that targeting the calcitriol/VDR system could be a promising pharmacological strategy for mitigating PM2.5-induced lung epithelial damage by promoting mitochondrial bioenergetics and regulating PGC-1α and HIF-1α signaling.

摘要

PM2.5 暴露通过触发氧化应激、线粒体功能障碍和调节 HIF-1α 信号来引起肺损伤。钙三醇激活 VDR，调节细胞内稳态。本研究通过降低氧化应激、上调线粒体生物能学和下调 HIF-1α，评估了钙三醇/VDR 系统在 PM2.5 诱导的 BEAS-2B 支气管上皮细胞损伤中的保护作用。我们发现，钙三醇/VDR 系统减少了 PM2.5 处理细胞中 ROS 的形成并恢复了线粒体生物能学。这种改善与 HIF-1α核易位减少以及 PGC-1α 蛋白和线粒体基因表达增加相关。本研究首次表明，靶向钙三醇/VDR 系统可能是一种有前途的药理学策略，通过促进线粒体生物能学和调节 PGC-1α 和 HIF-1α 信号来减轻 PM2.5 诱导的肺上皮损伤。

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骨化三醇/维生素 D 受体系统通过上调与 HIF-1α/PGC-1α 信号调节相关的线粒体生物能来减轻 PM2.5 引起的人支气管上皮损伤。

Calcitriol/vitamin D receptor system alleviates PM2.5-induced human bronchial epithelial damage through upregulating mitochondrial bioenergetics in association with regulation of HIF-1α/PGC-1α signaling.

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