The availability of surface GABA B receptors is independent of gamma-aminobutyric acid but controlled by glutamate in central neurons.

The efficacy of synaptic transmission depends on the availability of ionotropic and metabotropic neurotransmitter receptors at the plasma membrane, but the contribution of the endocytic and recycling pathways in the regulation of gamma-aminobutyric acid type B (GABA(B)) receptors remains controversial. To understand the mechanisms that regulate the abundance of GABA(B) receptors, we have studied their turnover combining surface biotin labeling and a microscopic immunoendocytosis assay in hippocampal and cortical neurons. We report that internalization of GABA(B) receptors is agonist-independent. We also demonstrate that receptors endocytose in the cell body and dendrites but not in axons. Additionally, we show that GABA(B) receptors endocytose as heterodimers via clathrin- and dynamin-1-dependent mechanisms and that they recycle to the plasma membrane after endocytosis. More importantly, we show that glutamate decreases the levels of cell surface receptors in a manner dependent on an intact proteasome pathway. These observations indicate that glutamate and not GABA controls the abundance of surface GABA(B) receptors in central neurons, consistent with their enrichment at glutamatergic synapses.

Unravelling the unusual signalling properties of the GABA(B) receptor.

GABA(B) receptors are the cornerstone receptors in the modulation of inhibitory signalling in the central nervous system and continue to be targets for the amelioration of a number of neuropsychiatric and neurological disorders. Unravelling the molecular identity of this receptor has spurred much research over the past five or so years and generated a renewed interest and excitement in the field. Many questions are being answered and lessons learnt, not only about GABA(B) receptor function but also about general mechanisms of G-protein-coupled receptor signalling. However, as questions are being answered as many new questions are being raised and many GABA(B)-related conundrums continue to remain unanswered. In this report, we review some of the most recent work in the area of GABA(B) receptor research. In particular, we focus our attentions on the emerging mechanisms thought to be important in GABA(B) receptor signalling and the growing complex of associated proteins that we consider to be part of the GABA(B) receptor "signalosome."