Norman G. Bowery scite author profile

The gamma-aminobutyric acid(B) (GABA(B)) receptor was first demonstrated on presynaptic terminals where it serves as an autoreceptor and also as a heteroreceptor to influence transmitter release by suppressing neuronal Ca(2+) conductance. Subsequent studies showed the presence of the receptor on postsynaptic neurones where activation produces an increase in membrane K(+) conductance and associated neuronal hyperpolarization. (-)-Baclofen is a highly selective agonist for GABA(B) receptors, whereas the established GABA(A) receptor antagonists, bicuculline and picrotoxin, do not block GABA(B) receptors. The receptor is G(i)/G(o) protein-coupled with mixed effects on adenylate cyclase activity. The receptor comprises a heterodimer with similar subunits currently designated 1 and 2. These subunits are coupled via coiled-coil domains at their C termini. The evidence for splice variants is critically reviewed. Thus far, no unique pharmacological or functional properties have been assigned to either subunit or the variants. The emergence of high-affinity antagonists for GABA(B) receptors has enabled a synaptic role to be established. However, the antagonists have generally failed to establish the existence of pharmacologically distinct receptor types within the GABA(B) receptor class. The advent of GABA(B1) knockout mice has also failed to provide support for multiple receptor types.

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(–)Baclofen decreases neurotransmitter release in the mammalian CNS by an action at a novel GABA receptor

Bowery

Hill

Hudson

et al. 1980

Nature

1,048

338

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GABAA and GABAB receptor site distribution in the rat central nervous system

1987

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GABA_B Receptor Pharmacology

Bowery

1993

Annu. Rev. Pharmacol. Toxicol.

606

292

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In conclusion, GABAB receptors appear to be of major importance in synaptic processing within the brain and are present at both post- and presynaptic sites. Their activation can hyperpolarize neurones and diminish neurotransmitter release from presynaptic terminals. We already know that drugs, i.e. baclofen, that mimic this activation are therapeutically useful, although the full significance of their use both inside and outside the brain has yet to be realized. Drugs that interfere with GABAB receptor activation should also prove to be important therapeutic agents. A number of suggestions have been proposed but it will be many years before the potential effects can be consolidated or refuted in humans. Only now are brain-penetrating GABAB antagonists being discovered, due largely to the expertise of the research group at CIBA-Geigy, Basel. The emergence of such compounds makes future studies an exciting prospect. In particular, the discovery that GABAB antagonism can suppress absence seizures in rats has provided an important therapeutic target. It is now just over ten years since we first designated the term GABAB. Since then a wealth of information has been obtained, but perhaps the best is still to come.

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3H-baclofen and 3H-GABA bind to bicuculline-insensitive GABAB sites in rat brain

Hill

Bowery

1981

Nature

1,029

295

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GABA and glycine as neurotransmitters: a brief history

Bowery

Smart

2006

British J Pharmacology

269

165

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g-Aminobutyric acid (GABA) emerged as a potentially important brain chemical just over 50 years ago, but its significance as a neurotransmitter was not fully realized until over 16 years later. We now know that at least 40% of inhibitory synaptic processing in the mammalian brain uses GABA. Establishing its role as a transmitter was a lengthy process and it seems hard to believe with our current knowledge that there was ever any dispute about its role in the mammalian brain. The detailed information that we now have about the receptors for GABA together with the wealth of agents which facilitate or reduce GABA receptor mechanisms make the prospects for further research very exciting. The emergence of glycine as a transmitter seems relatively painless by comparison to GABA. Perhaps this is appropriate for the simplest of transmitter structures! Its discovery within the spinal cord and brainstem approximately 40 years ago was followed only 2 years later by the proposal that it be conferred with 'neurotransmitter' status. It was another 16 years before the receptor was biochemically isolated. Now it is readily accepted as a vital spinal and supraspinal inhibitory transmitter and we know many details regarding its molecular structure and trafficking around neurones. The pharmacology of these receptors has lagged behind that of GABA. There is not the rich variety of allosteric modulators that we have come to readily associate with GABA receptors and which has provided us with a virtual treasure trove of important drugs used in anxiety, insomnia, epilepsy, anaesthesia, and spasticity, all stemming from the actions of the simple neutral amino acid GABA. Nevertheless, the realization that glycine receptors are involved in motor reflexes and nociceptive pathways together with the more recent advent of drugs that exhibit some subtype selectivity make the goal of designing selective therapeutic ligands for the glycine receptor that much closer.

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GABAB receptors and their significance in mammalian pharmacology

Bowery

1989

Trends in Pharmacological Sciences

383

154

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GABA and its receptors in the spinal cord

Melcangic

Bowery

1996

Trends in Pharmacological Sciences

264

147

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Norman G. Bowery

International Union of Pharmacology. XXXIII. Mammalian gamma -Aminobutyric AcidB Receptors: Structure and Function

(–)Baclofen decreases neurotransmitter release in the mammalian CNS by an action at a novel GABA receptor

GABAA and GABAB receptor site distribution in the rat central nervous system

GABA_B Receptor Pharmacology

3H-baclofen and 3H-GABA bind to bicuculline-insensitive GABAB sites in rat brain

GABA and glycine as neurotransmitters: a brief history

GABAB receptors and their significance in mammalian pharmacology

GABA and its receptors in the spinal cord

Contact Info

Product

Resources

About

Norman G. Bowery

International Union of Pharmacology. XXXIII. Mammalian gamma -Aminobutyric AcidB Receptors: Structure and Function

(–)Baclofen decreases neurotransmitter release in the mammalian CNS by an action at a novel GABA receptor

GABAA and GABAB receptor site distribution in the rat central nervous system

GABAB Receptor Pharmacology

3H-baclofen and 3H-GABA bind to bicuculline-insensitive GABAB sites in rat brain

GABA and glycine as neurotransmitters: a brief history

GABAB receptors and their significance in mammalian pharmacology

GABA and its receptors in the spinal cord

Contact Info

Product

Resources

About

GABA_B Receptor Pharmacology