Characterization of vagal pathways mediating gastric accommodation reflex in rats

1. We investigated the vagal pathways mediating the gastric accommodation reflex in the rat stomach. 2. Gastric distension (6 ml) evoked an increase of 9.0 +/- 1.0 cmH2O of intragastric pressure in vivo. Pretreatment with tetrodotoxin (TTX) caused a significant pressure increase by gastric distension, reaching 17.0 +/- 1.7 cmH2O, suggesting mediation by neural pathways. 3. The pressure increase evoked by gastric distension was significantly enhanced in vivo by acute truncal vagotomy (TV), hexamethonium (C6), and NG-nitro-L-arginine methyl ester (L-NAME), but not by vasoactive intestinal polypeptide (VIP) antiserum, guanethidine, or splanchnicotomy. 4. Gastric distension (6 ml) evoked a much larger intragastric pressure in the denervated, vascularly isolated, perfused rat stomach in vitro. Intra-arterial application of TTX and L-NAME did not cause further pressure increases evoked by gastric distension. 5. The pressure increase evoked by gastric distension remained high 2 weeks after TV in vivo. However, the accommodation reflex was fully restored 4 weeks after TV in vivo. This reflex was antagonized by TTX, C6 and L-NAME, but not by VIP antiserum, guanethidine and splanchnicotomy. 6. Similar to in vivo studies, gastric distension caused a smaller increase in intragastric pressure in response to gastric distension in the denervated, vascularly isolated, perfused stomach obtained from rats 4 weeks after vagotomies in vitro. The pressure increase evoked by gastric distension was significantly enhanced by L-NAME, hexamethonium and TTX. 7. It is suggested that the vago-vagal reflex plays an important role in mediating the accommodation reflex. This involves a vagal efferent pathway that uses nitric oxide as a final neurotransmitter mediating gastric relaxation in intact rats. It is also suggested that the adaptive mechanism mediating the accommodation reflex following vagotomy occurs in the gastric myenteric plexus.