Spinal trigeminal subnucleus pars muralis : An interface for apneic reflex

Noxious stimulation of the nasal cavity elicits protective reflexes for the upper respiratory tract, including sneezing, mucus secretion, apnea and cardiovascular reflexes. Yet, no studies have shown the full circuit responsible for the apneic response upon noxious stimulation of the nasal mucosa. Here, we show that injection of cholera toxin beta subunit into the nasal mucosa leads to terminal labeling in the transition zone between the interpolaris and caudalis subnuclei of the trigeminal sensory complex, i.e. subnucleus muralis (SpVm). We also provide physiological evidence that ammonia vapor delivered into the nasal cavity induces an apneic reaction and activates some SpVm cells. Subnucleus muralis cells also respond to mechanical stimulation of the narial pad and the nasal mucosa. Yet, none of the muralis cells responded to vibrissa deflection. Electrolytic lesion of SpVm or unilateral transection of the anterior ethmoidal nerve prevent apnea induced by ammonia delivery to the nasal epithelium, demonstrating their crucial role in the apneic reflex. We also found direct projections from SpVm to the respiratory centers, particularly the preBötzinger complex (preBötC). Inhibition of inspiratory preBötC cells and increased firing of expiratory preBötC cells are associated with ammonia‐induced apnea. Anatomical and physiological data presented here support the hypothesis that nasal induced apnea may be mediated by direct projections from nasal innervated Subnucleus muralis neurons to the PreB ö tC complex .