Establishment of a Mouse Model with Cough Hypersensitivity via Inhalation of Citric Acid

Cough is one of the most common symptoms of many respiratory diseases. Chronic cough significantly impacts quality of life and imposes a considerable economic burden. Increased cough sensitivity is a pathophysiological hallmark of chronic cough. It has been observed that cough hypersensitivity is related to airway inflammation, remodeling of airway sensory nerves, and alterations in the central nervous system. However, the precise molecular mechanisms remain unclear and require further elucidation using suitable animal models. Previous studies have utilized guinea pigs as models for studying cough, but these models present several experimental limitations, including high costs, a lack of transgenic tools, and a scarcity of commercial reagents. In addition, guinea pigs typically exhibit poor environmental tolerance and high mortality when exposed to stimuli. In contrast, mice are smaller, easier to maintain, more cost-effective, and amenable to genetic manipulation, making them more suitable for mechanistic investigations. In this study, we established a mouse model with cough hypersensitivity via continuous inhalation of citric acid (CA). This model is straightforward to operate and yields reproducible results, making it a valuable tool for further studies on the mechanisms and potential novel treatments for chronic cough.