Li A, Nattie EE (2006) Lesions of neurokinin-1 receptor immunoreactive (NK1R-ir) neurons in the ventral medulla decrease chemoreception and ventilation. Neuroscience 2006 Abstracts 455.5. Society for Neuroscience, Atlanta, GA.
Summary: We injected SSP-saporin, a toxin specific for NK1R-ir neurons, into the cisterna magna in order to lesion a wide aspect of the ventral medulla. NK1R-ir loss after 21 days was 79% in the retrotrapezoid nucleus, 65% in the A5 region, 38% in the medullary raphe and 49% in the pre-Botzinger complex. This resulted in a large reduction in the ventilatory response to 7% CO2 during wakefulness (-61%) and NREM sleep (-57%). The response to 12% O2 was reduced by 35-40% at 8 days but partially recovered by 22 days. We did not measure chemoreception in REM sleep. Ventilation in wakefulness, NREM and REM sleep measured over 4 hrs of air breathing decreased by 12-13% at 21 days compared to baseline values (P< 0.005, one-way repeated measures ANOVA; P< 0.05 post hoc comparison, Dunnett’s test). In REM sleep compared to awake and NREM sleep, the rats breathed with a higher frequency and smaller tidal volume, a pattern that was unaffected by the lesion, and with a greater coefficient of variability, which was further increased by the lesion (71 +/- 4 % vs 34 +/- 6 %). We did not observe any severe rhythm disturbances. We attribute the effect of these lesions, which are greatest in the ventral medullary regions including the retrotrapezoid nucleus and the medullary raphe, to loss of tonic chemoreceptor input. This input seems to have equal weight in wakefulness and in NREM and REM sleep and it seems to minimize the variability of frequency observed in REM sleep.
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