Autophagy Plays an Essential Role in Cigarette Smoke-induced Expression of MUC5AC in Airway Epithelium

Overview

Journal Am J Physiol Lung Cell Mol Physiol

Publisher American Physiological Society

Specialties Cell Biology
Molecular Biology
Physiology
Pulmonary Medicine

Date 2016 Apr 3

PMID 27036871

Citations 36

Authors

Jie-Sen Zhou

Yun Zhao

Hong-Bin Zhou

Yong Wang

Yin-Fang Wu

Zhou-Yang Li

Nan-Xia Xuan

Chao Zhang

Wen Hua

Song-Min Ying

Wen Li

Hua-Hao Shen

Zhi-Hua Chen

Affiliations

Soon will be listed here.

Abstract

Mucus hypersecretion is a common pathological feature of chronic airway inflammatory diseases including chronic obstructive pulmonary disease (COPD). However, the molecular basis for this condition remains incompletely understood. We have previously demonstrated a critical role of autophagy in COPD pathogenesis through mediating apoptosis of lung epithelial cells. In this study, we aimed to investigate the function of autophagy as well as its upstream and downstream signals in cigarette smoke-induced mucus production in human bronchial epithelial (HBE) cells and in mouse airways. Cigarette smoke extract (CSE), as well as the classical autophagy inducers starvation or Torin-1, significantly triggered MUC5AC expression, and inhibition of autophagy markedly attenuated CSE-induced mucus production. The CSE-induced autophagy was mediated by mitochondrial reactive oxygen species (mitoROS), which regulated mucin expression through the JNK and activator protein-1 pathway. Epidermal growth factor receptor (EGFR) was also required for CSE-induced MUC5AC in HBE cells, but it exerted inconsiderable effects on the autophagy-JNK signaling cascade. Airways of mice with dysfunctional autophagy-related genes displayed a markedly reduced number of goblet cells and attenuated levels of Muc5ac in response to cigarette smoke exposure. These results altogether suggest that mitoROS-dependent autophagy is essential for cigarette smoke-induced mucus hyperproduction in airway epithelial cells, and reemphasize autophagy inhibition as a novel therapeutic strategy for chronic airway diseases.

Citing Articles

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Albano G, Montalbano A, Gagliardo R, Profita M Biomolecules. 2023; 13(8).

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