The role of GABAA receptor biogenesis, structure and function in epilepsy
- 1 October 2006
- journal article
- Published by Portland Press Ltd. in Biochemical Society Transactions
- Vol. 34 (5) , 863-867
- https://doi.org/10.1042/bst0340863
Abstract
Maintaining the correct balance in neuronal activation is of paramount importance to normal brain function. Imbalances due to changes in excitation or inhibition can lead to a variety of disorders ranging from the clinically extreme (e.g. epilepsy) to the more subtle (e.g. anxiety). In the brain, the most common inhibitory synapses are regulated by GABAA (gamma-aminobutyric acid type A) receptors, a role commensurate with their importance as therapeutic targets. Remarkably, we still know relatively little about GABAA receptor biogenesis. Receptors are constructed as pentameric ion channels, with alpha and beta subunits being the minimal requirement, and the incorporation of a gamma subunit being necessary for benzodiazepine modulation and synaptic targeting. Insights have been provided by the discovery of several specific assembly signals within different GABAA receptor subunits. Moreover, a number of recent studies on GABAA receptor mutations associated with epilepsy have further enhanced our understanding of GABAA receptor biogenesis, structure and function.Keywords
This publication has 46 references indexed in Scilit:
- Structure and trafficking of NMDA and GABAA receptorsBiochemical Society Transactions, 2006
- Evidence for a Significant Role of α3-Containing GABAAReceptors in Mediating the Anxiolytic Effects of BenzodiazepinesJournal of Neuroscience, 2005
- Kinetics and Spontaneous Open Probability Conferred by the ϵ Subunit of the GABAAReceptorJournal of Neuroscience, 2005
- Requirement of α5-GABAAReceptors for the Development of Tolerance to the Sedative Action of Diazepam in MiceJournal of Neuroscience, 2004
- γ-Aminobutyric Acid Type A Receptor β2 Subunit Mediates the Hypothermic Effect of Etomidate in MiceAnesthesiology, 2004
- Evidence for the formation of functionally distinct αβγε GABAA receptorsThe Journal of Physiology, 2001
- Subunit Arrangement of γ-Aminobutyric Acid Type A ReceptorsJournal of Biological Chemistry, 2001
- Constructing inhibitory synapsesNature Reviews Neuroscience, 2001
- Decreased GABAA-receptor clustering results in enhanced anxiety and a bias for threat cuesNature Neuroscience, 1999
- Assembly and Cell Surface Expression of Heteromeric and Homomeric γ-Aminobutyric Acid Type A ReceptorsJournal of Biological Chemistry, 1996