Abstract

The dynamics of changes in the frequency of the respiratory activity recorded from the n. phrenicus under conditions of 3-min-long applications of 5 μM N-methyl-D-aspartate (NMDA), an anoxic gas mixture-saturated saline, or an acidified (pH 7.0) solution were studied in the experiments on superfusedin situ semi-isolated medullo-spinal preparations (SIMSP) of 3- to 4-day-old rats. Test applications were performed on the intact SIMSP or on those preliminarily influenced by the following substances: a non-competitive NMDA receptor blocker, ketamine (10 μM); an inhibitor of NO synthase, methyl ester of NG-nitro-L-arginine (MENA, l0 μM); hemoglobin, which binds NO (Hb, 0.3 μM); an NO donor, sodium nitroprusside (SNP, 10 μM); or/and a competitive blocker of non-NMDA receptors, CNQX (1.0 μM). Application of NMDA increased the frequency of the respiratory discharges, and the effect was blocked by MENA, Hb, and SNP. Addition of Hb to the SNP-containing solution neutralized the effect of the latter. In hypoxia, ketamine blocked an increase in the respiratory frequency within the initial 90-sec segment of the test and decreased the rhythm suppression within the second test half. MENA increased the respiration discharge frequency throughout the test. CNQX exerted no Influence on the frequency in the initial period and decreased its suppression within the second test half. Preliminary ketamine and MENA applications made smaller the increment of the discharge frequency at application of the solution with pH 7.0; the MENA effect was stronger. In addition, using a histochemical technique, we studied spatial distribution of the neurons containing an NO synthase marker, NADPH-diaphorase (NADPH-d), in frontal sections of the medulla of 4-day-old rats. NADPH-d-positive cells were observed within the limits of the dorsal and ventral respiratory neuronal groups (DRG and VRG, respectively). Their density was the highest in the rostral VRG part (in the region of the lateral paragigantocellular nucleus). Our results show that in early postnatal rats NMDA receptors and endogenous NO are actively involved in the control of respiratory rhythm generated by SIMSP under hypoxic and acidotic conditions. The results of morphohistochemical study can be considered a neuroanatomical support for the active NO role in the control of medullary respiratory rhythm in the early postnatal period.

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