Ultrastructural evidence for selective GABAergic innervation of CNS vagal projections to the antrum of the rat.

We reported pharmacological data suggesting that stimulation of a vago-vagal reflex activates GABAergic neurons in the hindbrain that inhibit dorsal motor nucleus of the vagus (DMV) neurons projecting to the antrum, but not to the fundus (Ferreira et al., 2002). The purpose of this study was to use an ultrastructural approach to test the hypothesis that GABAergic terminals form synapses with DMV antrum-projecting neurons, but not with DMV fundus-projecting neurons. A retrograde tracer, CTB-HRP, was injected into the gastric smooth muscle of either the fundus or the antrum of anesthetized rats. Animals were re-anesthetized 48 h later and perfusion-fixed with acrolein and paraformaldehyde. Brainstems were processed histochemically for CTB-HRP, and immunocytochemically for glutamic acid decarboxylase isoenzyme 67 immunoreactivity (GAD67-IR) by dual-labeling electron microscopic methods. Most cell bodies and dendrites of neurons that were retrogradely labeled from the stomach occurred at the level of the area postrema. Examination of 214 synapses on 195 neurons that projected to the antrum revealed that 23.0+/-3.6% (n = 4) of synaptic contacts were with GAD67-IR terminals. The examination of 220 synapses on 203 fundus-projecting neurons revealed that only 7.9+/-3.1% (n = 4) of synaptic contacts were with GAD67-IR terminals. The difference between GAD67-IR synaptic contacts with antrum- and fundus-projecting neurons was statistically significant (p<0.05). These data suggest that brainstem circuitry controlling the antrum involves GABAergic transmission.