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GABAa receptors action

A class of sedative/hypnotic type drug that exert their effects through the benzodiazepine binding site on GABAa receptors. The class consists both of molecules that contain the benzodiazepine moiety, for example diazepam, lorazepam and flunitrazepam, and the newer, non-benzodiazepine compounds such as zolpidem, zopiclone, indiplon and zaleplon. BzRAs are primarily used for the treatment of anxiety, insomnia and to elicit varying levels of sedation. The wide selection of compounds currently available affords the prescribing clinician extensive options in terms of relative efficacies and durations of action. [Pg.251]

Benzodiazepines. Figure 3 Dissection of benzodiazepine pharmacology. The functional roles of GABAa receptor subtypes, mediating particular actions of diazepam, are indicated. A sign indicates that the respective response is mediated by the respective receptor subtype, a sign indicates that the respective response is apparently not mediated by the respective receptor subtype. ND = not determined. [Pg.253]

Although flumazenil binds with high affinity to the benzodiazepine site of GABAa receptors, it has practically no action when given alone. However, flumazenil competitively blocks the action of benzodiazepine site agonists. Flumazenil can be used to terminate the action of benzodiazepines, e.g., after a benzodiazepine overdose. It may also serve as a diagnostic tool in this regard. [Pg.253]

The definition of desired therapeutic and side effects in the case of the benzodiazepines very much depends on the clinical problem in question. The sedative and hypnotic actions are desired effects in the treatment of insomnia, but undesired effects in the treatment of anxiety disorders. Effects that are usually undesired include daytime drowsiness, potentiation of the sedative effects of ethanol, and anterograde amnesia. They are mediated via the benzodiazepine site of GABAa receptors, since they can be antagonized with flumazenil. [Pg.254]

The benzodiazepine, lorazepam, acts allosterically on GABAa receptors to facilitate the actions of GABA. Lorazepam has some antiemetic activity in cancer chemotherapy. When used in combination therapy, it does not appear to add to antiemetic control but may contribute to a reduction in anxiety. [Pg.462]

The binding site for barbiturates on the GABAa receptor is less well defined. Barbiturates act by increasing the conductance level. In contrast to benzodiazepines, they also display direct agonistic action on GABAa receptors. Also in contrast to... [Pg.517]

Neurosteroids prolong the mean open time of recombinant GABAa receptor channels. Whereas, at least in recombinant systems, the identity of the a and (3 subunits has little or no effect on neurosteroid action, substitution of the y subunit by a 8 subunit suppresses the GABA-modulatory activity of the neurosteroids. [Pg.518]

Mice lacking the 8 subunit, which is mainly expressed in cerebellum and thalamus, display an attenuation of ssatrighting reflex time following the administration of the neurosteroids, alphaxalone and pregnanolone, while the responses to propofol, etomindate, ketamine and the benzodiazepine midazolam were unaffected. This demonstrates the role of GABAa receptors containing the 8 subunit for neurosteroid action. [Pg.518]

Many anaesthetics exist as enantiomeric pairs which when separated show selectivity in terms of anaesthetic potency. Studies on the action of anaesthetics at GABAa receptors have mimicked this selectivity, again... [Pg.534]

The last few years has seen an explosion in AEDs. Some of those mentioned above may fall by the wayside and others appear. At the time of writing, we could include felbamate, zonisamide oxcarbazepine and topiramate. They all appear to have a phenytoin-like action on sodium channels, although topiramate appears to also potentiate the action of GABA on GABAa receptors like the benzodiazepines but through a different site. [Pg.348]

Figure 19.8 A schematic representation of the GABAa receptor shift hypothesis. This proposes that patients with panic disorder have dysfunctional GABAa receptors such that the actions of drugs that behave as antagonists in normal subjects are expressed as inverse agonism in panic patients. It is unlikely that this theory extends to generalised anxiety disorder (GAD), for which benzodiazepine agonists are highly effective treatments, but it could explain why these drugs are relatively ineffective at treating panic disorder. (Based on Nutt et al. 1990)... Figure 19.8 A schematic representation of the GABAa receptor shift hypothesis. This proposes that patients with panic disorder have dysfunctional GABAa receptors such that the actions of drugs that behave as antagonists in normal subjects are expressed as inverse agonism in panic patients. It is unlikely that this theory extends to generalised anxiety disorder (GAD), for which benzodiazepine agonists are highly effective treatments, but it could explain why these drugs are relatively ineffective at treating panic disorder. (Based on Nutt et al. 1990)...
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See also in sourсe #XX -- [ Pg.230 ]



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