Nalcn Is a "Leak" Sodium Channel That Regulates Excitability of Brainstem Chemosensory Neurons and Breathing.
Yingtang ShiChikara AbeBenjamin B HollowayShaofang ShuNatasha N KumarJanelle L WeaverJosh SenEdward Perez-ReyesPatrice G GuyenetPatrice G GuyenetDouglas A BaylissPublished in: The Journal of neuroscience : the official journal of the Society for Neuroscience (2017)
Breathing is an essential, enduring rhythmic motor activity orchestrated by dedicated brainstem circuits that require tonic excitatory drive for their persistent function. A major source of drive is from a group of CO2/H(+)-sensitive neurons in the retrotrapezoid nucleus (RTN), whose ongoing activity is critical for breathing. The ionic mechanisms that support spontaneous activity of RTN neurons are unknown. We show here that Nalcn, a unique channel that generates "leak" sodium currents, regulates excitability and neuromodulation of RTN neurons and CO2-stimulated breathing. Thus, this work defines a specific function for this enigmatic channel in an important physiological context.