Xu F, Zhuang J, Hernandez J, Shi S (2004) Apnea induced by stimulation of bronchopulmonary C-fibers (PCFs) depends on neurons expressing the neurokinin a receptor (NK1R) in the commissural subnucleus of the nucleus tractus solitarius (cNTS). Neuroscience 2004 Abstracts 661.13. Society for Neuroscience, San Diego, CA.
Summary: Stimulation of PCFs by right atrial injection of capsaicin (CAP) reflexly produces an apnea and hypotension via stimulating cNTS neurons. Recent evidence indicates that activation of NK1R within the cNTS significantly amplifies this apneic response (Mutoh, et al., Am J Physiol, 2000). We asked whether the cNTS contained the highest density of the neurons responding to PCF stimulation and expressing NK1R, and what the effect of selective destruction of these neurons was on the cardiorespiratory responses to CAP. In the first series of our experiments, double labeling (c-fos and NK1R immunoreactivity) was used to mark the medullary neurons that were activated by right atrial injection of CAP (0.5-1.0 µg) and displayed NK1R. We found that compared to control (vehicle injection), the greatest enhancement of and highest density of Fos expression were observed within the cNTS, and a number of Fos-stained cNTS neurons had expression of NK1R. In the second series of our experiments, bilateral microinjection (100 nl) of substance P-saporin conjugate (SP-SAP) to selectively destroy the local neurons containing NK1R and SAP (control) into the cNTS was performed in two groups of rats, respectively. Our results showed that at 18 days after SP-SAP (rather than SAP) injection, the majority of cNTS NK1R neurons were destroyed. This lesion did not significantly change cardiorespiratory baseline variables, but did eliminate the apnea and reduce the hypotension induced by CAP. In sharp contrast, the lesion failed to affect the cardiorespiratory responses to hypoxia (10% O2 for 1 min). These findings strongly suggest that cNTS neurons with NK1R are necessary for the PCF-mediated cardiorespiratory responses but are not significantly involved in the cardiorespiratory response to acute hypoxia.
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