Lack of coupling between GABA release and GABA synthesis in the rat brain via GABA_B autoreceptors

Summary.

GABA is synthesized within GABA terminals through a highly compartmentalized process in which glial-derived glutamine is a major precursor and its release is modulated by GABA_B autoreceptors. The aim of this work was to ascertain whether or not GABA synthesis and release are coupled in the rat brain through a GABA_B autoreceptor-mediated modulation. It was found that (−)baclofen (30 μM) reduces the K⁺ stimulated release of [³H]GABA in synaptosomes and prisms (10 μM) from cerebral cortex, while at the same concentrations (−)baclofen failed to modify the synthesis of [³H]GABA from [³H]glutamine in cortical and hypothalamic slices, prisms and in cortical synaptosomes. In this latter preparation, identical results were observed when (−)baclofen was added to Krebs-Tris media, containing 5 or 15 mM K⁺ concentration. In agreement with these latter results, glutamic acid decarboxylase (GAD) activity from cortical and hypothalamic prisms was not affected by 1–100 μM (−)baclofen. Similar results on GABA synthesis were also observed when 1–100 μM 3-aminopropil(methyl)-phosphinic acid or GABA was used instead of (−)baclofen to stimulate GABA_B autoreceptors. [³H]GABA release, [³H]GABA synthesis from [³H]glutamine and GAD activity were also insensitive to the action of the GABA_B antagonist CGP 52432 (10–100 μM). Likewise, muscimol (0.3–100 μM) did not affect GABA synthesis. Our results indicate that unlike GABA release, GABA synthesis is not modulated by GABA_B autoreceptors.