A. R. Green scite author profile

Abstract. Following repeated electroconvulsive shocks (ECS) (once daily for 10 days), rats display enhanced hyperactivity responses to tranylcypromine and Ltryptophan, a procedure which increases brain 5-hydroxytryptamine (5-HT) concentrations, or to the suggested 5-HT agonist quipazine. The enhanced responses last for about 6 days following the last shock. Repeated sub-convulsive shocks did not produce this behavioural enhancement.Administration of indomethacin (2 mg/kg) 25 rain before the ECS did not prevent the enhanced 5-HT response suggesting that the enhanced response is not the result of the reported rise in prostaglandins F following ECS.Repeated ECS shortened the time to loss of righting following pentobarbital (50 mg/kg) but did not alter the total sleeping time.Repeated ECS enhances locomotor activity produced by methamphetamine. It also enhances circling produced by methamphetamine and apomorphine in unilateral nigrostriatal lesioned rats, suggesting an enhanced postsynaptic response.No evidence was found for ECS altering the response of striatal adenylate cyclase to dopamine nor for any alteration of striatal cyclic AMP concentration.These data taken with our previous study reinforce the suggestion that electroconvulsive therapy (ECT) produces increased responses to 5-hydroxytryptamine and dopamine receptor stimulation.

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Lithium decreases 5-HT1A and 5-HT2 receptor and ?2-adrenoreceptor mediated function in mice

Goodwin

DeSouza²,

Wood³

et al. 1986

Psychopharmacology

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Lithium administration (LiC1, 10 mmol/kg, SC on day 1, followed by 3 mmol/kg twice daily subsequently) for 14 days to mice produced attenuation of the hypothermic response to injection of 8-hydroxy-2-(di-n-propylamino)tetralin (8-OH-DPAT, 0.5 mg/kg SC). Head twitch responses to the 5-HT-receptor agonist 5-methoxy-N,N-dimethyltryptamine (2.5 mg/kg IP) and to precursor loading with carbidopa (25 mg/kg, IP) and 5-hydroxytryptophan (100 mg/kg IP) were similarly attenuated. By contrast with this reduction of 5-hydroxytryptamine (5-HT) function mediated by the 5-HTIA and 5-HT2 receptor sub-types, repeated lithium administration had no effect on the motor response to a putative 5-HTIB receptor agonist 5-methoxy-3(1,2,3,6-tetrahydropyridin-4-yl)lH indole (RU 24969, 3 mg/kg IP). Alpha2 adrenoceptor function, assessed by the sedation response to elonidine (0.25 mg/kg, IP), was also attenuated by repeated lithium administration. It is proposed that these actions may explain the emergence of lithium as an adjunct to the treatment of refractory depressive illness.

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Liver and Brain Tryptophan Metabolism Following Hydrocortisone Administration to Rats and Gerbils

Green

Young

1975

British J Pharmacology

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1 Liver tryptophan pyrrolase activity is low in the mongolian gerbil (Meriones unguiculatus) and is not induced by hydrocortisone (5 mg/kg). In contrast, there is measurable activity in the rat liver and this is induced by hydrocortisone. In vivo measurements confirmed the absence of induction in gerbils but suggested that they were able to metabolize tryptophan. However, no detectable pyrrolase activity was found in any other tissues either before or after hydrocortisone. 2 In agreement with previous observations hydrocortisone decreased rat brain 5-hydroxytryptamine (5-HT) and 5-hydroxyindoleacetic acid (5-HIAA) 6 h after administration. Brain tryptophan concentrations were also decreased at this time. In contrast, hydrocortisone did not alter gerbil brain 5-HT, 5-HIAA or tryptophan. a-Methyltryptophan activated hepatic tryptophan pyrrolase and decreased brain 5-HT and 5-HIAA in both animals. 3 Results suggest that the decrease in rat brain 5-HT and 5-HIAA following hydrocortisone may be associated with the rise in liver tryptophan pyrrolase and that the brain amine changes are mediated through the decrease in brain tryptophan concentration.

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Regional GABA concentration and [3H]-diazepam binding in rat brain following repeated electroconvulsive shock

Bowdler

Green

Minchin

et al. 1983

J. Neural Transmission

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It has been confirmed that 24 hours following a series of electroconvulsive shocks (ECS) given once daily for 10 days (ECS X 10) to rats there is an increase in GABA concentration in the corpus striatum. A similar change was seen after the ECS had been given to rats anaesthetised with halothane, or when 5 ECS were given spread out over 10 days, the rats being anaesthetised during the ECS. A daily convulsion for 10 days elicited by flurothyl exposure resulted in an increased striatal GABA concentration, but also increased the GABA concentration in the hypothalamus, hippocampus and cortex. The increase in striatal GABA concentration was present 24 hours after ECS daily for 5 days or 3 days after ECS daily for 10 days. No change in [3H]-diazepam binding was seen in hippocampus, cortex or corpus striatum 24 hours after the last of 10 once daily ECS. The increase in striatal GABA concentration was therefore seen at all times when enhanced monoamine-mediated behaviours have been demonstrated following seizures.

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Single and repeated administration of neuroleptic drugs to rats: Effects on striatal dopamine-sensitive adenylate cyclase and locomotor activity produced by tranylcypromine and L-tryptophan or L-dopa

et al. 1976

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Injection of tranylcypromine and L-tryptophan results in rats displaying behavioural changes including hyperactivity, probably due to stimulation of post-synaptic 5-hydroxytryptamine (5-HT) receptors. Increased locomotor activity of a different type is elicited by injection of tranylcypromine and L-dopa, a procedure which increased dopaminergic function in the brain. It has now been demonstrated that the neuroleptic drugs, chlorpromazine, alpha-flupenthixol, haloperidol and spiroperidol block both syndromes. The inhibition produced by these drugs on 5-HT-induced hyperactivity is probably because a dopaminergic system is involved in the behavioural expression of the 5-HT induced hyperactivity. The structurally related drugs with no neuroleptic activity (ethopropazine, promethazine and beta-flupenthixol)are without effect on thses hyperactivity syndromes. Also ineffective were the neuroleptics pimozide and clozapine. Striatal dopamine sensitive adenylate cyclase activity in vitro was inhibited by the administration of chlorpromazine (100 mg/kg) in vivo. Rats treated for 4 or more days with chlorpromazine, alpha-flupenthixol, spiroperidol and haloperidol subsequently showed enhanced locomotor activity in response to tranylcypromine and L-Dopa. Administration of those drugs which did not block hyperactivity acutely did not result in enhancement. Only chlorpromazine, when given for 4 days, enhanced the hyperactivity response following tranylcypromine and L-tryptophan, probably because the drug also blocks 5-HT receptors. In rats displaying enhanced behavioural responses no evidence was found for enhanced sensitivity of striatal adenylate cyclase to dopamine.

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A. R. Green

Further observations on the effect of repeated electroconvulsive shock on the behavioural resposes of rats produced by increases in the functional activity of brain 5-hydroxytryptamine and dopamine

Lithium decreases 5-HT1A and 5-HT2 receptor and ?2-adrenoreceptor mediated function in mice

Liver and Brain Tryptophan Metabolism Following Hydrocortisone Administration to Rats and Gerbils

Regional GABA concentration and [3H]-diazepam binding in rat brain following repeated electroconvulsive shock

Single and repeated administration of neuroleptic drugs to rats: Effects on striatal dopamine-sensitive adenylate cyclase and locomotor activity produced by tranylcypromine and L-tryptophan or L-dopa

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