Brainstem nitric oxide tissue levels correlate with anoxia-induced gasping activity in the developing rat.

Gasping is an important mechanism for survival that appears to be developmentally modulated by the glutamate-nitric oxide (NO) pathway. However, the temporal characteristics of NO brain tissue levels during gasping are unknown. We hypothesized that during anoxia-induced gasping, the gasping frequency would be closely correlated with caudal brainstem tissue NO concentrations in developing rats. Brainstem and cortical tissue NO levels were measured during anoxia using a voltammetric electrode in adult rats and 5-day-old pups during control conditions and following pretreatment with the NMDA receptor antagonist MK-801 (1 mg/kg) or the neuronal NO synthase inhibitor 7-nitro-indazole (7-NI; 100 mg/kg). In young animals, NO tissue levels followed a triphasic trajectory coincident with gasp frequency which was markedly altered by MK-801 and 7-NI, albeit with preservation of gasp frequency-NO tissue level relationships. In adult rats, 40-fold higher NO tissue levels occurred and followed a monophasic trajectory coincident with gasp patterning. In the cortex, monophasic increases in NO levels occurred at all ages. We conclude that anoxia-induced gasping neurogenesis is modulated via NMDA-NO mechanisms in the developing rat. We postulate that higher NO brainstem concentrations may favor early autoresuscitation, but limit anoxic tolerance.
(Copyright 2001 S. Karger AG, Basel)