Benzodiazepine-induced anxiolysis and reduction of conditioned fear are mediated by distinct GABAA receptor subtypes in mice

GABAA receptor modulating drugs such as benzodiazepines (BZs) have been used to treat anxiety disorders for over five decades. In order to determine whether the same or different GABAA receptor subtypes are necessary for the anxiolytic-like action of BZs in unconditioned anxiety and conditioned fear...

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Bibliographic Details
Published in:Neuropharmacology 2012-08, Vol.63 (2), p.250-258
Main Authors: Smith, Kiersten S., Engin, Elif, Meloni, Edward G., Rudolph, Uwe
Format: Article
Language:English
Subjects:
Animals
Anti-Anxiety Agents - pharmacology
Anti-Anxiety Agents - therapeutic use
Anxiety
Anxiety - drug therapy
Anxiety - genetics
Anxiety - metabolism
Anxiolytics
Behavior, Animal - drug effects
Behavior, Animal - physiology
Benzodiazepine
chlordiazepoxide
Chlordiazepoxide - pharmacology
Chlordiazepoxide - therapeutic use
Conditioned fear
Conditioning (Psychology) - drug effects
Conditioning (Psychology) - physiology
Diazepam
Diazepam - pharmacology
Diazepam - therapeutic use
Drugs
Fear - drug effects
Fear - physiology
Fear conditioning
Fear-potentiated startle
GABAA receptor
gamma -Aminobutyric acid A receptors
Male
Mice
Mice, Knockout
Mice, Mutant Strains
Protein Subunits - genetics
Protein Subunits - metabolism
Receptors, GABA-A - genetics
Receptors, GABA-A - metabolism
Reflex, Startle - drug effects
Reflex, Startle - physiology
α subunit
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Summary:GABAA receptor modulating drugs such as benzodiazepines (BZs) have been used to treat anxiety disorders for over five decades. In order to determine whether the same or different GABAA receptor subtypes are necessary for the anxiolytic-like action of BZs in unconditioned anxiety and conditioned fear models, we investigated the role of different GABAA receptor subtypes by challenging wild type, α1(H101R), α2(H101R) and α3(H126R) mice bred on the C57BL/6J background with diazepam or chlordiazepoxide in the elevated plus maze and the fear-potentiated startle paradigms. Both drugs significantly increased open arm exploration in the elevated plus maze in wild type, α1(H101R) and α3(H126R), but this effect was abolished in α2(H101R) mice; these were expected results based on previous published results. In contrast, while administration of diazepam and chlordiazepoxide significantly attenuated fear-potentiated startle (FPS) in wild type mice and α3(H126R) mice, the fear-reducing effects of these drugs were absent in both α1(H101R) and α2(H101R) point mutants, indicating that both α1- and α2-containing GABAA receptors are necessary for BZs to exert their effects on conditioned fear responses. Our findings illustrate both an overlap and a divergence between the GABAA receptor subtype requirements for the impact of BZs, specifically that both α1- and α2-containing GABAA receptors are necessary for BZs to reduce conditioned fear whereas only α2-containing GABAA receptors are needed for BZ-induced anxiolysis in unconditioned tests of anxiety. This raises the possibility that GABAergic pharmacological interventions for specific anxiety disorders can be differentially tailored. ► We used H–R point mutated mice to study benzodiazepine effects on anxiety and fear. ► α2-subunits are required for benzodiazepine-induced anxiolysis in elevated plus maze. ► α1- and α2-subunits are required for benzodiazepine-induced reduction of conditioned fear. ► Pharmacological interventions for specific anxiety disorders can be differentially tailored.
ISSN:0028-3908
1873-7064
DOI:10.1016/j.neuropharm.2012.03.001