Although breathing is primarily automatic, its modulation by behavior and emotions suggests cortical inputs to brainstem respiratory networks, which hitherto have received little characterization. Here we identify in mice a top-down breathing pathway from dorsal anterior cingulate cortex (dACC) neurons to pontine reticular nucleus GABAergic inhibitory neurons (PnCGABA), which then project to the ventrolateral medulla (VLM). dACC→PnC activity correlates with slow breathing cycles and volitional orofacial behaviors and is influenced by anxiogenic conditions. Optogenetic stimulation of the dACC→PnCGABA→VLM circuit simultaneously slows breathing and suppresses anxiety-like behaviors, whereas optogenetic inhibition increases both breathing rate and anxiety-like behaviors. These findings suggest that the dACC→PnCGABA→VLM circuit has a crucial role in coordinating slow breathing and reducing negative affect. Our study elucidates a circuit basis for top-down control of breathing, which can influence emotional states.
© 2024. The Author(s), under exclusive licence to Springer Nature America, Inc.