Development of hypoglossal motoneurons

Abstract

Hypoglossal motoneurons (HMs) are brain stem motoneurons that innervate tongue muscles. Their function is critical in the control of the upper airway. Results from in vitro studies of rat HMs have shown that properties of HMs change during the postnatal period. For example, these studies have uncovered changes in HM morphology and electrical properties (both in ion channels and firing properties) as well as changes in chemical synaptic transmission to HMs during the postnatal period. Morphologically, a marked reduction in complexity of the dendritic tree takes place over the first 2 wk postnatal. In terms of electrical properties, a substantial and progressive fall in motoneuronal input resistance occurs during the first month of life, due to a decrease in specific membrane resistivity. This is primarily responsible for the progressive increase in rheobase and consequent reduction in cell excitability. In addition, the densities of at least two types of membrane ion channels are altered in early postnatal life, contributing to changes in their electroresponsive properties. On the one hand, the depolarizing mixed cationic current that is activated by membrane hyperpolarization was found to be approximately 10-fold larger in adult than in neonatal HMs. By contrast, neonatal HMs possess a transient low-voltage-activated T-type Ca2+ channel with a low single-channel conductance (approximately 7 pS), the density of which rapidly declines during the early postnatal period. The functional relevance of these and other changes occurring during the postnatal period is discussed.