Pacemaker properties of respiratory neurons of the ventrolateral medullary regions in early postnatal rats

Abstract

Spike activity of respiratory neurons of the ventrolateral medullary regions was studied under conditions of blocking of synaptic transmission. The experiments were carried out on superfusedin situ semi-isolated medullo-spinal preparations (SIMSP) of newborn (1st day of life) and 4- to 5-day-old rats. Part of the pre-inspiratory and (to a somewhat lesser extent) expiratory neurons of newborn rats appeared most resistive to superfusion of preparations with a low-Ca2+ (0.2 mM) and Mg2+-rich (5.0 mM) solution. Spike activity in some neurons of these groups was preserved up to 40 and 25 min, respectively, after mass inspiratory discharges in then. phrenicus had disappeared. Similar neurons in 4- to 5-day-old SIMSP were less resistive. Inspiratory neurons in animals of both age groups demonstrated no pacemaker properties. Coagulation of the regions where pre-inspiratory neurons are localized (the retrofacial zone) did not evoke irreversible blockade of respiratory rhythm in all SIMSP of 4- to-5-day-old rats and in most SIMSP of newborn animals. At the same time, coagulation of the zone where inspiratory neurons are concentrated (the pre-Botzinger complex) resulted in the blockade of respiratory rhythm in all SIMSP, with no exceptions.