Effects of antagonists upon locomotor stimulation induced by injection of dopamine and noradrenaline into the nucleus accumbens of nialamide-pretreated rats (original) (raw)
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References
- Andén, N.-E., Butcher, S. G., Corrodi, H., Fuxe, K., Ungerstedt, U.: Receptor activity and turnover of dopamine and noradrenaline after neuroleptics. Europ. J. Pharmacol. 11, 303–314 (1970)
Google Scholar - Andén, N.-E., Dahlström, A., Fuxe, K., Larsson, K.: Functional role of the nigro-neostriatal dopamine neurons. Acta pharmacol. (Kbh.) 24, 263–274 (1966)
Google Scholar - Andén, N.-E., Strömbom, U., Svensson, T. H.: Dopamine and noradrenaline receptor stimulation: reversal of reserpine-induced suppression of motor activity. Psychopharmacologia (Berl.) 29, 289–298 (1973)
Google Scholar - Geyer, M., Segal, D. S., Mandell, A. J.: Effect of intraventricular infusion of dopamine and norepinephrine on motor activity. Physiol. Behav. 8, 653–658 (1972)
Google Scholar - Horn, A. S., Cuello, A. C., Miller, R. J.: Dopamine in the mesolimbic system of the rat brain: endogenous levels and the effects of drugs on the uptake mechanism and stimulation of adenylate cyclase activity. J. Neurochem. 22, 265–270 (1974)
Google Scholar - Iversen, L. L.: Uptake mechanism for neurotransmitter amines. Biochem. Pharmacol. 23, 1927–1935 (1974)
Google Scholar - Janssen, P. A. J., Niemegeers, C. J. E., Schellekens, K. H. L.: Is it possible to predict the clinical effects of neuroleptic drugs (major tranquillizers) from animal data? Part 1: “Neuroleptic activity spectra” for rats. Arzneimittel-Forsch. 15, 104–117 (1965)
Google Scholar - Kebabian, J. W., Petzold, G. L., Greengard, P.: Dopamine-sensitive adenylate cyclase in caudate nucleus of rat brain, and its similarity to the “dopamine receptor”. Proc. nat. Acad. Sci. (Wash.) 69, 2145–2149 (1972)
Google Scholar - König, J. F. R., Klippel, R. A.: The rat brain. Baltimore: Williams and Wilkins. 1963
Google Scholar - Koob, G. F., Balcom, G. J., Meyerhoff, J. L.: Changes in dopamine and norepinephrine in the nucleus accumbens septi, olfactory tubercle and corpus striatum following lesions in ventral tegmental area in the rat. Fed. Proc. 33, 246 (1974)
Google Scholar - Langer, S. Z.: Presynaptic regulation of catecholamine release. Biochem. Pharmacol. 23, 1793–1800 (1974)
Google Scholar - Lidbrink, P., Jonsson, G., Fuxe, K.: Selective reserpine-resistant accumulation of catecholamines in central dopamine neurons after Dopa administration. Brain Res. 67, 439–456 (1974)
Google Scholar - Masuoka, D. T., Alcaraz, A. F.: 6-Hydroxydopamine: effect on mouse brain monoamines and 14C-noradrenaline uptake. Europ. J. Pharmacol. 24, 234–242 (1973)
Google Scholar - Modigh, K., Svensson, T. H.: On the role of central nervous system catecholamines and 5-hydroxytryptamine in the nialamide-induced behavioural syndrome. Brit. J. Pharmacol. 46, 32–45 (1972)
Google Scholar - Pijnenburg, A. J. J., Van Rossum, J. M.: Stimulation of locomotor activity following injection of dopamine into the nucleus accumbens. J. Pharm. Pharmacol. 25, 1003–1005 (1973)
Google Scholar - Van Rossum, J. M.: The significance of dopamine receptor blockade for the mechanism of action of neuroleptic drugs. Arch. int. Pharmacodyn. 160, 492–494 (1966)
Google Scholar - Van Rossum, J. M.: Mode of action of psychomotor stimulant drugs. Int. Rev. Neurobiol. 12, 307–383 (1970)
Google Scholar - Starke, K.: Alpha sympathomimetic inhibition of adrenergic and cholinergic transmission in the rabbit heart. Naunyn-Schmiedeberg's Arch. Pharmacol. 274, 18–45 (1972)
Google Scholar - Starke, K., Montel, H.: Involvement of α-receptors in clonidine-induced inhibition of transmitter release from central monoamine neurones. Neuropharmacology. 12, 1073–1080 (1973a)
Google Scholar - Starke, K., Montel, H.: Alpha-receptor-mediated modulation of transmitter release from central noradrenergic neurones. Naunyn-Schmiedeberg's Arch. Pharmacol. 279, 53–60 (1973b)
Google Scholar - Svensson, T. H., Waldeck, B.: On the role of brain catecholamines in motor activity: experiments with inhibitors of synthesis and of monoamine oxidase. Psychopharmacologia (Berl.) 18, 357–365 (1970)
Google Scholar - Ungerstedt, U.: Stereotaxic mapping of the monoamine pathways in the rat brain. Acta physiol. scand. 82, Suppl. 367, 1–48 (1971)
Google Scholar - Westfall, T. C.: Effect of muscarinic agonists on the release of 3H- norepinephrine and 3H-dopamine potassium and electrical stimulation from rat brain slices. Life Sci. 14, 1641–1652 (1974)
Google Scholar - Yeh, B. K., McNay, J. L., Goldberg, L. I.: Attenuation of dopamine renal and mesenteric vasodilation by haloperidol: evidence for a specific dopamine receptor. J. Pharmacol. exp. Ther. 168, 303–309 (1969)
Google Scholar