Antidepressant treatments,including electroconvulsive shock and the putative antidepressant sibutramine hydrochloride,do not alter [3H]-prazosin binding to rat cortical membranes
Restricted accessResearch articleFirst published online March, 1989
Antidepressant treatments,including electroconvulsive shock and the putative antidepressant sibutramine hydrochloride,do not alter [3H]-prazosin binding to rat cortical membranes
Treatment for 1, 3 or 10 days with sibutramine hydrochloride (3 mg/kg), desi pramine (10 mg/kg), amitriptyline (10 mg/kg) or pargyline (10 mg/kg) did not effect the number or affinity of α1-adrenoceptors as determined by [3H]-prazosin binding to rat cerebral cortical membranes. Similarly, neither single, nor repeated (five times over 10 days) electroconvulsive shocks, given under halothane anaesthesia had any effect on the parameters of [3H]-prazosin binding. These data suggest that the clinical actions of these treatments are unlikely to involve changes in α1-adrenoceptor function.
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References
1.
Banerjee S.P., Kung L.S., Riggi S.J., Chanda S.K.1977Development of beta-adrenergic receptor subsensitivity by antidepressantsNature268: 455-456
2.
Bergstrom D.A., Kellar K.J.1979Effect of electroconvulsive shock on monoaminergic receptor binding sites in rat brainNature278: 464-466
3.
Buckett W.R., Thomas P.C., Luscombe G.P.1988The pharmacology of sibutramine hydrochloride (BTS 54 524), a new antidepressant which induces rapid noradrenergic down regulationProg Neuropsychopharmacol Biol Psychiat12: 575-584
4.
Crews F.T., Smith C.B.1978Presynaptic alpha-receptor subsensitivity after long-term antidepressant treatmentScience202: 322-324
5.
Deakin J F W, Owen F., Cross A.J., Dashwood M.J.1981Studies on possible mechanism of action of electroconvulsive therapy: effects of repeated electrically induced seizures on rat brain receptors for monoamines and other neurotransmittersPsychopharmacology73: 345-349
6.
Goodwin G.M., Green A.R., Johnson P.19855-HT2 receptor characteristics in frontal cortex and 5-HT2 receptor-mediated head-twitch behaviour following antidepressant treatment to miceBr J Pharmacol83: 235-242
7.
Green A.R., Johnson P., Nimgaonkar V.L.1983Increased 5-HT2 receptor number in brain as a probable explanation for the enhanced 5-hydroxytryptamine-mediated behaviour following repeated electroconvulsive shock administration to ratsBr J Pharmacol80: 173-177
8.
Heal D.J.1984Phenylephrine-induced activity in mice as a model of central α 1-adrenoceptor function. Effects of acute and repeated administration of antidepressant drugs and electroconvulsive shock. Neuropharmacology23: 1241-1251
9.
Heal D.J., Hurst E.M., Buckett W.R.1988Lesioning of central 5-HT neurones does not prevent the attenuation of clonidine sedation in mice by repeated ECSBr J Pharmacol95: Proc Suppl 657P
10.
Heal D.J., Jones S.A., Buckett W.R.1988Administration of sibutramine HCl and other antidepressants including ECS decreases cortical β1-, but not β2 -adrenoceptorsBr J Pharmacol94: Proc Suppl 379P
11.
Heal D.J., Lister S., Smith S.L., Davies C.L., Molyneux S.G., Green A.R.1983The effects of acute and repeated administration of various antidepressant drugs on clonidine-induced hypoactivity in mice and ratsNeuropharmacology22: 983-992
12.
Hong K.W., Rhim B.Y., Lee W.S.1986Enhancement of central and peripheral α1-adrenoceptor sensitivity and reduction of α2-adrenoceptor sensitivity following chronic imipramine treatment in ratsEur J Pharmacol120: 275-283
13.
Jones R S G, Dourish C.T.1982Variation in response to stimulation of central 5-hydroxytryptamine mechanisms in two strains of albino ratBrain Res247: 172-176
14.
Kendall D.A., Nahorski S.R.19855-Hydroxytryptamine-stimulated inositol phospholipid hydrolysis in rat cerebral cortex slices: pharmacological characterisation and effects of antidepressantsJ Pharmacol Exp Ther233: 473-479
15.
Lowry O.H., Rosebrough V.J., Farr A.L., Randall R.J.1951Protein measurement with the Folin phenol reagentJ Biol Chem193: 265-275
16.
Maj J., Klimek V., Nowak G.1985Antidepressant drugs given repeatedly increase binding to α1-adrenoceptors in the rat cortexEur J Pharmacol119: 113-116
Newman M.E., Miskin I., Lerer B.1987Effects of single and repeated electroconvulsive shock administration on inositol phosphate accumulation in rat brain slicesJ Neurochem49: 19-23
19.
Nimgaonkar V.L., Heal D.J., Davies C.L., Green A.R.1986Studies on rat brain catecholamine synthesis and β-adrenoceptor number following administration of electroconvulsive shock, desipramine and clenbuterolJ Neural Transm65: 245-259
20.
Norman A.B., Battaglia G., Creese I.1985[3H]-WB4101 labels the 5HT1A serotonin receptor subtype in rat brainMol Pharmacol28: 487-494
21.
Nowak G., Przegalinski E.1988Effect of repeated treatment with antidepressant drugs and electroconvulsive shock (ECS) on [3H]-prazosin binding to different rat brain structuresJ Neural Transm71: 57-64
22.
Palfreyman M.G., Mir A.K., Kubina M., Middlemiss D.N., Richards M., Tricklebank M.D., Fozard J.R.1986Monoamine receptor sensitivity changes following chronic administration of MDL 72394, a site-directed inhibitor of monoamine oxidaseEur J Pharmacol130: 73-89
Pilc A., Vetulam J.1982Depression by chronic electroconvulsive treatment of clonidine hypothermia and [3H]-clonidine binding to rat cortical membranesEur J Pharmacol80: 109-113
25.
Schildkraut J., Kety S.1967Biogenic amines and emotionScience156: 21-30
26.
Smith C.B., Garcia-Sevilla J.A., Hollingsworth P.J.1981α2-Adrenoceptors in rat brain are decreased after long-term tricyclic antidepressant drug treatmentBrain Res210: 413-418
27.
Stanford S.C., Nutt D.J.1982Comparison of the effects of repeated electroconvulsive shock on α2- and β-adrenoceptors in different regions of rat brainNeuroscience7: 1737-1753
28.
Stockmeier C.A., McLeskey S.W., Blendy J.A., Armstrong N.R., Kellar K.J.1987Electroconvulsive shock but not antidepressant drugs increases α 1-adrenoceptor binding sites in rat brainEur J Pharmacol139: 259-266
29.
Sugrue M.F.1982A study of rat brain alpha2-adrenoceptor sensitivity during chronic antidepressant treatmentsNaunyn-Schmiedeberg's Arch Pharmacol320: 90-96
30.
Sugrue M.F.1983Some effects of chronic antidepressant treatments on rat brain monoaminergic systemsJ Neural Transm57: 281-295
31.
Sulser F.1982Antidepressant drug research: its impact on neurobiology and psychobiologyAdv Biochem Psychopharmacol31: 1-20
32.
Sulser F., Mobley P.L.1981Regulation of central noradrenergic receptor function: new vistas on the mode of action of antidepressant treatments In Neuroreceptors- basic and clinical aspects (eds Usdin E, Bunney W E, Davis J M). John Wiley and Sons, Chichester , pp. 55-83
33.
Vetulam J., Antkiewicz-Michaluk L., Rokosz-Pelc A.1984Chronic administration of antidepressant drugs increases the density of cortical [3H]-prazosin binding sites in the ratBrain Res310: 360-362
34.
Vetulam J., Stawarz R.J., Dingell J.V., Sulser F.1976A possible common mechanism of action of antidepressant treatmentsNaunyn-Schmiedeberg's Arch Pharmacol293: 109-114
35.
Vetulani J., Antkiewicz-Michaluk L., Rokosz-Pelc A., Pilc A.1983Chronic electroconvulsive treatment enhances the density of [3H]-prazosin binding sites in the central nervous system of the ratBrain Res275: 392-395
36.
Wolfe B.B., Harden T.K., Sporn J.R., Molinoff P.B.1978Presynaptic modulation of beta-adrenergic receptors in rat cerebral cortex after treatment with antidepressantJ Pharmacol Exp Ther207: 446-457