GABA A receptor ɛ‐subunit may confer benzodiazepine insensitivity to the caudal aspect of the nucleus tractus solitarii of the rat

1 Benzodiazepines (BZ) and barbiturates both potentiate chloride currents through GABA A receptors to enhance inhibition. However, unlike barbiturates BZ do not impair autonomic control of heart rate. We hypothesised that BZ might not significantly potentiate GABAergic transmission in the caudal nucleus of the solitary tract (cNTS), which is critically important for mediating the baroreceptor reflex. 2 In rat brain slices the BZ agonists chlordiazepoxide and midazolam (2 and 50 μ m did not Significantly enhance currents evoked by GABA in voltage‐clamped cNTS neurones. Chlordiazepoxide (50 μ m ) reversibly increased electrically evoked IPSPs in 5/10 rostral NTS (rNTS) neurones but only in 2/10 cNTS neurones. Pentobarbitone (50–100 μ m ) was effective in enhancing GABA A ‐mediated responses in all NTS neurones. An inverse BZ agonist, methyl 6,7‐dimethoxy‐4‐ethyl‐β‐carboline‐3‐carboxylate (DMCM; 1 or 10 μ m ), failed to depress GABA‐induced currents in the cNTS. 3 Microinjections of midazolam (10 and 100 μ m solutions) into the cNTS did not affect the baroreceptor reflex ( P > 0.2 ) while pentobarbitone (100 μ m ) significantly and reversibly depressed it (gain decrease to 53 ± 11 % of control, P < 0.01 ). 4 Reverse transcriptase polymerase chain reaction revealed the presence of α 1 , α 2 , β 2 , β 3 and γ 2 GABA A receptor subunit mRNA in the cNTS. No alternatively spliced variants of the α 1 ‐ and γ 2 ‐subunits were revealed. Moreover, GABA A ɛ‐subunit mRNA was found in both the cNTS and rNTS as two alternatively spliced transcripts. 5 Immunocytochemical analysis revealed numerous GABA A ɛ‐subunit‐positive neurones within the cNTS with significantly fewer ɛ subunit‐positive cells in the rNTS. 6 As incorporation of the ɛ‐subunit in recombinant GABA A receptors may confer BZ insensitivity we propose that the paucity of BZ actions in the cNTS is due to a high level of ɛ‐subunit expression. This is the first demonstration of a possible physiological impact of the ɛ ‐subunit on native GABA A receptors.