TRPA1 channel in the airway underlies protection against airborne threats by modulating respiration and behaviour.

Transient receptor potential ankyrin 1 (TRPA1), a member of the TRP superfamily of cation channels, is broadly expressed in sensory neural pathways, including the trigeminal neurons innervating the nasal cavity and vagal neurons innervating the trachea and the lung. TRPA1 acts as a detector of various irritant chemicals as well as hypoxia and hyperoxia. For the past 15 years, we have characterised its role in respiratory and behavioural modulation in vivo using Trpa1 knockout (KO) mice and wild-type (WT) littermates. Trpa1 KO mice failed to detect, wake up from sleeping, and escape from formalin vapour and a mild hypoxic (15 % O ) environment. Respiratory augmentation induced by mild hypoxia was absent in either Trpa1 KO mice or WT mice treated with a TRPA1 antagonist. Irritant gas introduced into the nasal cavity inhibited respiratory responses in WT mice but not in the KO mice. The effect of TRPA1 on the olfactory system seemed minimal because olfactory bulbectomised WT mice reacted similarly to the intact mice. Immunohistological analyses using a cellar activation marker, the phosphorylated form of extracellular signal-regulated kinase, confirmed activation of trigeminal neurons in WT mice but not in Trpa1 KO mice in response to irritant chemicals and mild hypoxia. These data collectively show that TRPA1 is necessary for multiple chemical-induced protective responses in respiration and behaviour. We propose that TRPA1 channels in the airway may play a sentinel role for environmental threats and prevent incoming damage. Abstract figure legend Sensing pathways in the airway to detect oxygen and environmental threats. Three cranial nerves (I: olfactory nerve, V: trigeminal nerve, and X: vagal nerve) are located along the airway. Although not in the airway, a canonical oxygen sensor, the carotid body chemoreceptor, detects blood PO , and its information is conveyed to the brain through the glossopharyngeal nerve (IX). The resulting respiratory and behavioural changes (right half) are explained in the text. In short, TRPA1 in the airway serves as a front-line sensor for mild hypoxia and dangerous airborne chemicals to alarm and induce defensive responses in respiration and behaviour. This article is protected by copyright. All rights reserved.