Effect of nitric oxide on the respiratory activity generated under hypoxic conditions by medullo-spinal preparations from early postnatal rats

Experiments on superfusedin situ semi-isolated medullo-spinal preparations (SIMSP) of 3- to 4-day-old rats were carried out to study the effects of a blocker of nitric oxide synthase (NO synthase), methyl ester of N^G-nitro-L-arginine (MENA), and an exogenic NO donor, nitroglycerin, on the respiratory activity. Inspiratory discharges (ID) were recorded from the phrenic nerve under superfusion of SIMSP with a standard saline and a solution saturated with anoxic isocapnic gas mixture. Under normal conditions, 3-min-long applications of 1.0 μM MENA evoked no significant changes in the parameters of inspiratory activity; yet 10.0 μM of this blocker evoked a significant drop in the amplitude and an increase in the ID frequency. Three-min-long applications of 1.0 μM nitroglycerin significantly decreased the ID frequency and somewhat increased their amplitude and integral intensity. Higher doses of nitroglycerin (10.0 μM) significantly increased the amplitude and integral intensity of ID and in a lesser extent lowered their frequency. Under conditions of 3-min-long hypoxia, 10-min-long preliminary superfusion of SIMSP with the 1.0 μM MENA-containing saline resulted in no significant changes of respiratory activity, as compared with the hypoxia effect in the norm. Applied before the hypoxic test, 10 μM MENA resulted in significant decreases in the amplitude and integral intensity of ID; concurrently their frequency became higher, as compared with the respective parameters measured at hypoxic testing of the intact preparations. Ten-min-long superfusion with 1.0 μM nitroglycerin-containing solution at subsequent hypoxic testing significantly increased the amplitude and integral intensity of ID and decreased their frequency; these shifts developed during the first half of exposure to the hypoxic solution. Increased (to 10 μM) nitroglycerin concentration resulted in less intensive shifts in the ID frequency within the first half of a hypoxic episode. In a part of the tests, the second half of exposure of SIMSP to the hypoxic solution was characterized by the appearance of low-amplitude short ID against the background of suppressed eupnea-like respiratory activity; we qualified such discharges as gasping discharges. The experimental data confirm the involvement, of NO in the central regulation of the frequency and amplitude parameters of inspiratory activity generated by SIMSP of early postnatal rats both under normoxic and hypoxic conditions. The role NO plays under hypoxic conditions in modifications of parameters of respiratory activity and in modulation of the functional, levels of the bulbar respiratory generator is discussed.