Abstract
Repeated electroconvulsive shock (ECS) (one shock daily for 8 days), but not single ECS, eliminates the sedative response to small doses of apomorphine (25–100 μg/kg) and potentiates the stimulant response to high doses (200 μg/kg) of the drug in rats. This effect is observed 1 and 4 days after the last ECS. However, repeated ECS does not prevent the inhibitory effect of apomorphine on dopamine (DA) synthesis. The results suggest that repeated ECS may lead to the development of subsensitivity in DA receptors that mediate sedation and that these receptors are differentiated from those controlling DA synthesis.
References
Argiolas A, Fadda F (1978) A radioenzymatic method to measure picogram amounts of dopamine and 3,4-dihydroxyphenylacetic acid (DOPAC) in small samples of brain tissue. Experientia 34:739–741
Berstrom DA, Kellar KJ (1979) Effect of electroconvulsive shock on monoaminergic receptor binding sites in rat brain. Nature 278:464–466
Bunney BS, Aghajanian GK (1976) d-Amphetamine-induced inhibition of central dopaminergic neurons: Mediation by a striato-nigral feedback pathway. Science 192:391–393
Bunney BS, Aghajanian GK, Roth RH (1973) Comparison of effects of l-DOPA, amphetamine and apomorphine on firing rate of rat dopaminergic neurons. Nature 245:123–125
Carlsson A (1975) Receptor-mediated control of dopamine metabolism. In: Usdin E, Bunney Jr WE (eds) Pre-and post-synaptic receptors. Marcel Dekker, New York, pp 49–63
Costall B, Naylor RJ (1974) Sterotyped and circling behaviour induced by dopaminergic agonists after lesions of the midbrain raphe nuclei. Eur J Pharmacol 29:206–222
Di Chiara G, Porceddu ML, Vargiu L, Argiolas A, Gessa GL (1976) Evidence for dopamine receptors mediating sedation in the mouse brain. Nature 264:564–567
Fadda F, Argiolas A, Stefanini E, Gessa GL (1977) Differential effect of psychotropic drugs on dihydroxyphenylacetic acid (DOPAC) in the rat substantia nigra and caudate nucleus. Life Sci 21:411–418
Farnebo LO, Hamberger B (1971) Drug-induced changes in the release of 3H-monoamines from field stimulated rat brain slices. Acta Physiol Scand [Suppl] 371:35–44
Grahame-Smith DG, Green AR, Costain DW (1978) Mechanism of the antidepressant action of electroconvulsive therapy. Lancet I:254–256
Green AR, Heal DJ, Grahame-Smith DG (1977) Further observations on the effect of repeated electroconvulsive shock on the behavioural responses of rats produced by increases in the functional activity of brain 5-hydroxytryptamine and dopamine. Psychopharmacology 52:195–200
Le Moal M, Stinus L, Simon H, Tassin JP, Thierry AM, Blanc G, Glowinski J, Cardo B (1977) Benavioural effects of a lesion in the ventral mesencephalic tegmentum: Evidence for involvement of A10 dopaminergic neurons. In: Costa E, Gessa GL (eds) Advances in biochemical psychopharmacology, vol 16 New York, Raven, pp 237–245
Modigh K (1975) Electroconvulsive shock and postsynaptic catecholamine effects: Increased psychomotor stimulant action of apomorphine and clonidine in reserpine-pretreated mice by repeated ECS. J Neural Transm 36:19–32
Post RM, Gerner RH, Carman JS, Gillin JC, Jimerson DC, Goodwin FK, Bunney Jr WE (1978) Effects of a dopamine agonist piribedil in depressed patients: Relationship of pretreatment HVA to antidepressant response. Arch Gen Psychiatry 35:609–615
Randrup A, Munkvad I, Fog R, Gerlach J, Molander L, Kjellberg B, Scheel-Krüger J (1975) Mania, depression and brain dopamine. In: Essman WB, Valzelli L (eds) Current developments in psychopharmacology, vol 2. Spectrum, England, pp 206–248
Roth RH, Murrin LC, Walters JR (1976) Central dopaminergic neurons: Effects of alterations in impulse flow on the accumulation of dihydroxyphenylacetic acid. Eur J Pharmacol 36:163–171
Serra G, Argiolas A, Klimek V, Fadda F, Gessa GL (1979) Chronic treatment with antidepressants prevents the inhibitory effect of small doses of apomorphine on dopamine synthesis and motor activity. Life Sci 25:415–424
Shopsin B, Gershon S (1978) Dopamine receptor stimulation in the treatment of depression: Piribedil (ET-495). Neuropsychobiology 4:1–14
Strömbom U (1976) Catecholamine receptor agonists. Effects on motor activity and rate of tyrosine hydroxylation in mouse brain. Naunyn-Schmiedeberg's Arch Pharmacol 292:167–174
Tassin JP, Stinus L, Simon H, Blanc G, Thierry AM, Le Moal M, Cardo B, Glowinski J (1978) Relationship between the locomotor hyperactivity induced by A10 lesions and the destruction of the frontocortical dopaminergic innervation in the rat. Brain Res 141:267–281
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Serra, G., Argiolas, A., Fadda, F. et al. Repeated electroconvulsive shock prevents the sedative effect of small doses of apomorphine. Psychopharmacology 73, 194–196 (1981). https://doi.org/10.1007/BF00429217
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DOI: https://doi.org/10.1007/BF00429217