Vagal TRPV1 activation exacerbates thermal hyperpnea and increases susceptibility to experimental febrile seizures in immature rats.

Thermal hyperpnea, a pattern of breathing during hyperthermia that is characterized by an increase in tidal volume as well as breathing frequency, is known to lead to respiratory alkalosis. Thermal hyperpnea-induced respiratory alkalosis is linked to febrile seizures (FS). The heat-sensitive transient receptor potential vanilloid-1 (TRPV1) receptors are localized in, and implicated in the heat sensitivity of peripheral and central structures involved in the respiratory response to hyperthermia. We, therefore, hypothesize that TRPV1 activation increases susceptibility to experimental FS (EFS) in immature rats due to an exacerbated thermal hyperpnea. We found that peripheral, but not central TRPV1 activation had pro-convulsant effects. These pro-convulsant effects were associated with an increased rate of expired CO2 due to an exaggerated ventilatory response to hyperthermia. The TRPV1 antagonist, AMG-9810, and TRPV1 deletion abolished the pro-convulsant effects, while exposure to 5% CO2, bilateral vagotomy and DREADD (designer receptor exclusively activated by designer drugs)-mediated inhibition of TRPV1-containing cells in the vagal nodose ganglia significantly attenuated these effects. These findings suggest that vagal TRPV1-driven thermal hyperpnea likely increases susceptibility to FS in immature rodents. This identifies a novel peripheral anatomical and molecular target that should be considered when developing therapeutics for FS. Crown