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Attenuation of scopolamine-induced impairment of spontaneous alternation behaviour by antagonist but not inverse agonist and agonist β-carbolines

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Abstract

Mice were tested in a simple automated Y-maze. Total number of arm entries and alternation behaviour were measured. The latter is thought to reflect working memory capacity at a rudimentary level. During an 8-min session, vehicle-treated mice performed 32.4±7.4 arm entries, 51.0±12.4% of which were organized in alternations (triplets). The two variables showed a negative correlation. Scopolamine (1.0 mg/kg) significantly enhanced activity, reduced alternation behaviour and diminished the correlation between the two variables. The effects of benzodiazepine receptor inverse agonist, antagonist and agonist β-carbolines on this spontaneous behaviour and on the effects of scopolamine were examined. The effects of inverse agonists and agonists on locomotor activity were complex in interaction with both vehicle and scopolamine. The scopolamine-induced reduction of alternation behaviour was significantly reversed by the antagonist ZK 93426 but not by inverse agonists; furthermore, partial agonists and agonists showed no effects. It is hypothesized that the interaction of antagonist β-carbolines with scopolamine is based on a direct GABA-ergic control of cholinergic neurotransmission, and suggests an ability of antagonist β-carbolines to antagonize amnestic properties of scopolamine.

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References

  • Anisman H (1975) Dissociation of disinhibitory effects of scopolamine: Strain and task factors. Pharmacol Biochem Behav 3:613–618

    Google Scholar 

  • Beck CHM, Cooper SJ (1986) The effect of the β-carboline FG 7142 on the behaviour of male rats in a living cage: An ethological analysis of social and nonsocial behaviour. Psychopharmacology 89:203–207

    Google Scholar 

  • Beninger RJ, Jhamandas K, Boegman RJ, EL-Defrawy SR (1986) Effects of scopolamine and unilateral lesions of the basal forebrain on T-maze spatial discrimination and alternation in rats. Pharmacol Biochem Behav 24:1353–1360

    Google Scholar 

  • Braestrup C, Schmiechen R, Neef G, Nielsen M, Petersen EN (1982) Interaction of convulsive ligands with benzodiazepine receptors. Science 216:1241–1243

    Google Scholar 

  • Casamenti F, Deffenu G, Abbamondi AL, Pepeu G (1986) Changes in cortical acetylcholine output induced by modulation of the nucleus basalis. Brain Res Bull 16:689–695

    Google Scholar 

  • Douglas RJ, Isaacson RL (1965) Homogeneity of single trial response tendencies and spontaneous alternation in the T-maze. Psychol Rep 16:87–92

    Google Scholar 

  • File SE, Pellow S, Jensen LH (1986) Actions of the β-carboline ZK 93426 in an animal test of anxiety and the holeboard: Interactions with Ro 15–1788. J Neural Transm 65:103–114

    Google Scholar 

  • Jensen LH, Petersen EN, Braestrup C, Honore T, Kehr W, Stephens DN, Schneider H, Seidelmann D, Schmiechen R (1984) Evaluation of the β-carboline ZK 93426 as a benzodiazepine receptor antagonist. Psychopharmacology 83:249–256

    Google Scholar 

  • Jensen LH, Stephens DN, Sarter M, Petersen EN (1987) Bidirectional effects of β-carbolines and benzodiazepines on memory processes. Brain Res Bull 19:359–364

    Google Scholar 

  • Karczmar AG (1976) Central actions of acetylcholine, cholinomimetics, and related drugs. In: Goldberg AM, Hanin I (eds) Biology of cholinergic function. Raven Press, New York, pp 395–449

    Google Scholar 

  • Nagy J, Decsi L (1978) Physostigmine, a highly potent antidote for acute experimental diazepam intoxication. Neuropharmacology 17:469–475

    Google Scholar 

  • Petkov V, Georgiev V, Getova D, Petkov VV (1983) On the effects of diazepam, hyoscine and oxotremorine on acetylcholine release from the cerebral cortex. Acta Physiol Pharmacol Bulg 9:3–13

    Google Scholar 

  • Richardson PJ, Brown SJ, Bailyes EM, Luzio JP (1987) Ectoenzymes control adenosine modulation of immunoisolated cholinergic synapses. Nature 327:232–234

    Google Scholar 

  • Sarter M (1986) Some considerations of different modes of action of nootropic drugs. Neuropsychobiology 15:192–200

    Google Scholar 

  • Sarter M, Stephens DN (1988) β-carbolines as tools in memory research: Animal data and speculations. In: Hindmarch I, Ott H, Roth T (eds) Benzodiazepine receptor ligands: Memory and information processing. Psychopharmacology [Suppl] (in press)

  • Sarter M, Schneider HH, Stephens DN (1988) Treatment strategies for senile dementia: Antagonist β-carbolines. Trends Neurosci (in press)

  • Spencer DG Jr, Lal H (1983) Effects of anticholinergic drugs on learning and memory. Drug Dev Res 3:489–502

    Google Scholar 

  • Spencer DG Jr, Pontecorvo MJ, Heise GA (1985) Central cholinergic involvement in working memory: Effects of scopolamine on continuous nonmatching and discrimination performance in the rat. Behav Neurosci 99:1049–1065

    Google Scholar 

  • Stephens DN, Sarter M (1988) Bidirectional properties of β-carboline ligands at benzodiazepine receptors extend to effects on vigilance. In: Hindmarch I, Ott H, Roth T (eds) Benzodiazepine receptor ligands: Memory and information processing. Psychopharmacology [Suppl] (in press)

  • Stephens DN, Kehr W (1985) β-carbolines can enhance or antagonize the effects of punishment in mice. Psychopharmacology 85:143–147

    Google Scholar 

  • Stephens DN, Schneider HH, Kehr W, Jensen LH, Petersen E, Honore T (1987) Modulation of anxiety by β-carbolines and other benzodiazepine receptor ligands: Relationship of pharmacological to biochemical measures of efficacy. Brain Res Bull 19:309–318

    Google Scholar 

  • Tanganelli S, Bianchi C, Beani L (1985) The modulation of cortical acetylcholine release by GABA, GABA-like drugs and benzodiazepines in freely moving guinea-pigs. Neuropharmacology 24:291–299

    Google Scholar 

  • Tobe A, Egawa M, Nagai R (1983) Effect of 4-(o-benzylphenoxyl)-n-methylbutylamine hydrochloride (MCI-2016) on the scopolamine-induced deficit of spontaneous alternation behaviour in rats. Jpn J Pharmacol 33:775–784

    Google Scholar 

  • Venault P, Chapouthier G, de Carvalho LP, Simiand J, Moore M, Dodd RH, Rossier J (1986) Benzodiazepine impairs and β-carboline enhances performance in learning and memory tasks. Nature 321:364–366

    Google Scholar 

  • Warburton DM, Heise GA (1972) Effects of scopolamine on spatial double alternation in rats. J Comp Physiol Psychol 81:523–532

    Google Scholar 

  • Warburton DM, Wesnes K (1984) Drugs as research tools in psychology: Cholinergic drugs and information processing. Neuropsychobiology 11:121–132

    Google Scholar 

  • Wenk GL (1984) Pharmacological manipulations of the substantia innominata-cortical cholinergic pathway. Neurosci Lett 51:99–103

    Google Scholar 

  • Wood PL (1986) Pharmacological evaluation of GABAergic and glutamatergic input to the nucleus basalis-cortical and the septal-hippocampal cholinergic projections. Can J Physiol Pharmacol 64:325–328

    Google Scholar 

  • Zaborsky L, Heimer L, Eckenstein F, Leranth C (1986) GABAergic input to cholinergic forebrain neurons: An ultrastructural study using retrograde tracing of HRP and double immunolabelling. J Comp Neurol 250:282–295

    Google Scholar 

  • Zsilla G, Cheney DL, Costa E (1976) Regional changes in the rate of turnover of acetylcholine in rat brain following diazepam or muscimol. Arch Pharmacol 294:251–255

    Google Scholar 

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Author notes

  1. Geert Bodewitz & David N. Stephens

    Present address: Research Laboratories of Schering AG, D-4619, Bergkamen, Federal Republic of Germany

  2. Martin Sarter

    Present address: Department of Neuropsychopharmacology, Schering AG, P.O. Box 650311, D-1000, Berlin 65, Federal Republic of Germany

Authors and Affiliations

  1. Research Laboratories of Schering AG, D-1000, Berlin 65, Federal Republic of Germany

    Martin Sarter, Geert Bodewitz & David N. Stephens

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  1. Martin Sarter
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Sarter, M., Bodewitz, G. & Stephens, D.N. Attenuation of scopolamine-induced impairment of spontaneous alternation behaviour by antagonist but not inverse agonist and agonist β-carbolines. Psychopharmacology 94, 491–495 (1988). https://doi.org/10.1007/BF00212843

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  • DOI: https://doi.org/10.1007/BF00212843

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