1. Taurine ameliorates particulate matter-induced emphysema by switching on mitochondrial NADH dehydrogenase genes.
- Author
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Xiaobo Li, Hongbao Yang, Hao Sun, Runze Lu, Chengcheng Zhang, Na Gao, Qingtao Meng, Shenshen Wu, Wang, Susanna, Aschner, Michael, Jiong Wu, Boping Tang, Aihua Gu, Kay, Steve A., and Rui Chen
- Subjects
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PULMONARY emphysema , *PHYSIOLOGICAL effects of taurine , *PARTICULATE matter , *MITOCHONDRIAL enzymes , *NADH dehydrogenase , *PREVENTION , *PHYSIOLOGICAL effects of pollutants - Abstract
Chronic obstructive pulmonary disease (COPD) has been linked to particulate matter (PM) exposure. Using transcriptomic analysis, we demonstrate that diesel exhaust particles, one of the major sources of particulate emission, down-regulated genes located in mitochondrial complexes I and V and induced experimental COPD in a mouse model. 1-Nitropyrene was identified as a major toxic component of PM-induced COPD. In the panel study, COPD patients were found to be more susceptible to PM than individuals with normal lung function due to an increased inflammatory response. Mechanistically, exposure to PM in human bronchial epithelial cells led to a decline in CCAAT/enhancer-binding protein alpha (C/EBPα), which triggered aberrant expression of NADH dehydrogenase genes and ultimately led to enhanced autophagy. ATG7-deficient mice, which have lower autophagy rates, were protected from PM-induced experimental COPD. Using metabolomics analysis, we further established that treatment with taurine and 3-methyladenine completely restored mitochondrial gene expression levels, thereby ameliorating the PM-induced emphysema. Our studies suggest a potential therapeutic intervention for the C/EBPα/mitochondria/autophagy axis in PM-induced COPD. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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