Effects of selected imidazopyrimidine ligands for benzodiazepine receptors in rodent models of anxiety and behavioural impairment

Deacon, Robert M. J.; Guy, A.P.; Gardner, Colin

doi:10.1002/ddr.430220404

Cited by 12 publications

References 12 publications

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Relationship between structure and efficacy at central benzodiazepine receptors for a series of imidazopyrimidines and imidazoquinolines

Gardner¹,

Budhram²,

Deacon³

et al. 1991

Drug Development Research

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Gardner, C.R., P. Budhram, R.M.J. Deacon, and T.A. Thomson: Relationship between structure and efficacy at central benzodiazepine receptors for a series of imidazopyrimidines and imidazoquinolines. Drug Dev. Res. 22:309-320, 1991.The efficacy of a series of novel imidazoquinolines and imidazopyrimidines at benzodiazepine (BDZ) receptors was assessed using in vivo models: food-motivated conflict in rats, stress-induced ultrasounds in rat pups, leptazol seizures in mice, and suprahyoid muscle twitching in urethane-anaesthetized rats. Compounds showing activities similar to classical BDZs (anxiolytic, anticonvulsant, and central nervous system (CNS) depressant activities, as well as depression of twitching) have been classified as strong agonists while those showing reduced CNS depressant effects, or reduced anticonvulsant effects with an antagonist profile in twitching, have been classified as moderate and weak partial agonists, respectively. Compounds were regarded as weak or strong inverse agonists according to their abilities to potentiate both seizures and twitching at doses which antagonize full BDZ agonists in the models of anxiety. Modification of two regions of these molecules caused changes in their efficacies. Agonist efficacy following modification to position 2 gave the ranking: oxadiazole > benzoyl >> cyclopropyl ketone 2 thiazole with the latter compounds becoming inverse agonists in some cases, depending on other changes to the structure. The imidazoquinolines were stronger agonists than the imidazopyrimidines. As the 5 6 -

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Relationship between structure and efficacy at central benzodiazepine receptors for a series of imidazopyrimidines and imidazoquinolines

Gardner¹,

Budhram²,

Deacon³

et al. 1991

Drug Development Research

Self Cite

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Animal pharmacokinetics of selected imidazopyrimidine ligands for benzodiazepine receptors

Ager¹,

Doyle²,

Hairsine³

et al. 1991

Drug Development Research

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The kinetics of imidazopyrimidines selected for development were investigated in the rat, dog, and cynomolgus monkey using high pressure liquid chromatography (HPLC) measurements of levels. These data were compared with levels estimated by benzodiazepine radioreceptor binding assays and with the in vivo binding of the compounds to these receptors in the brain. RU 32698, RU 33203, and RU 33543 were found in relatively high peak levels in the plasma of rats (1-6 kg/ml at 10 min-1 hr after 10-100 mg/kg orally [P.o.]), dogs (4-12 pg/ml at 2 hr after 20 mglkg P.o.), and monkeys (0.4-10 pg/ml after 150-500 mg/kg p.0.). HPLC analysis showed one further prominent peak for either RU 33203 or RU 33543 which had similar characteristics in all three species and may represent a common route of metabolism. In the rat these putative metabolites were at low levels in the brain when compared with parent levels. Nuclear magnetic resonance (NMR) and mass spectra of these isolated metabolites identified them as the hydroxymethyl derivatives on the oxadiazole ring. The synthesised metabolites showed two to six times less affinity for 3H-flunitrazepam-labelled benzodiazepine receptors, and the RU 33203 metabolite, RU 341 49, did not displace in vivo benzodiazepine receptor binding after administration to mice, despite high plasma levels. This, coupled with little activity in several in vivo pharmacological models, suggests that this metabolite only poorly crosses the blood brain barrier. A pharmacological effect in the stress-induced ultrasounds model is consistent with this view as the rat pups used have a poor blood brain barrier. Daily dosing of low, pharmacologically effective doses of all three compounds (25 or 30 mg/kg p.0.) in rats showed little change in the plasma levels of parents after the 14th dose. There were slight increases in the levels of the metabolites of RU 33203 and RU 33543. Higher doses showed some decrease of parent levels on day 14 but a clear increase in the metabolite levels, particularly with RU 33543, suggesting enhanced metabolism on repeated dosing. No marked differences in overall plasma level time courses of parent or metabolites were observed when comparing the first or last (28-30 days) daily dose in monkeys (150-500 mgikg p.0.).

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Alcohol, GABAA-Benzodiazepine Receptor Complex, and Aggression

Miczek

DeBold

Erp

et al. 2002

Recent Developments in Alcoholism

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Effects of selected imidazopyrimidine ligands for benzodiazepine receptors in rodent models of anxiety and behavioural impairment

Cited by 12 publications

References 12 publications

Relationship between structure and efficacy at central benzodiazepine receptors for a series of imidazopyrimidines and imidazoquinolines

Relationship between structure and efficacy at central benzodiazepine receptors for a series of imidazopyrimidines and imidazoquinolines

Animal pharmacokinetics of selected imidazopyrimidine ligands for benzodiazepine receptors

Alcohol, GABAA-Benzodiazepine Receptor Complex, and Aggression

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