Non-respiratory neurons in the Bötzinger complex exhibiting appropriate firing patterns to generate the emetic act in dogs

Abstract

This work was performed to prove the hypothesis that the pattern generator for the emetic act exists in the Bötzinger complex (BOT) and is driven by vagal afferents via the subpostrema portion of the nucleus of the solitary tract (mNST). Non-respiratory neurons (78) intermingling with BOT respiratory neurons in decerebrate dogs responded to pulse train stimulation of vagal afferents with a mean latency of 387 ms. During retching induced by vagal stimulation, one-half of the non-respiratory neurons exhibited high frequency burst firings synchronous with each retch (SH-firing, SH-neurons) and one-third of these neurons showed similar firings synchronous with the periods between retches (BH-firing, BH-neurons). Two-thirds of the SH-neurons and one-half of the BH-neurons fired with gradually augmenting frequencies (augmenting firing) during the period prior to retching, which may correspond to the period of prodromal signs of vomiting. Three SH-neurons were observed at fictive expulsion: all 3 exhibited burst firings concomitant with expulsion. During cooling block of transmission in the mNST, stimulation of the vagus nerve ipsilateral to the cooling failed to induce not only retching but also augmenting firing and SH-firing in all 11 BOT SH-neurons observed. In contrast, contralateral vagal stimulation induced retching and neuronal firings which had been observed before the cooling. These results support the hypothesis mentioned above. Respiratory firings were changed during retching in all BOT respiratory neurons observed. Respiratory firings were depressed during retching in the majority (15/25) of inspiratory (I) neurons and in a few expiratory (E) neurons (6/45). SH-firing was exhibited by 3 I- and 13 E-neurons. A few (2) I- and half (23) E-neurons showed BH-firing. These results indicate that all BOT respiratory neurons participate in central patterning of the emetic act.