O. Magnusson scite author profile

Densities and distribution of D1-dopamine and D2-dopamine receptors were investigated in vitro using [3H]SCH 23390 and [3H]raclopride in receptor binding assays and autoradiography on human post mortem whole hemisphere slices to serve as anatomical correlates to PET studies using [11C]SCH 23390 and [11C]raclopride. In addition, the levels of dopamine and its metabolites were determined by HPLC in various brain regions. Both dopamine receptor subtypes, as well as dopamine, HVA and DOPAC, were primarily found in the basal ganglia. Very high densities of D1-dopamine receptors were found particularly in the medial caudate nucleus, whereas D2-dopamine receptors were evenly distributed throughout the caudate. The densities of D1- and D2-dopamine receptors were similar in the caudate nucleus and the putamen, whereas there were 4 to 7 times higher densities of the D1- than of the D2-dopamine receptors in several limbic and neocortical regions. The receptor distribution in the autoradiographic study was consistent with that demonstrated in the living human brain using [11C]SCH 23390 and [11C]raclopride.

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Remoxipride, a new potential antipsychotic compound with selective anti-dopaminergic actions in the rat brain

Ögren

Hall

Køhler

et al. 1984

European Journal of Pharmacology

215

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Local allergic reaction in food-hypersensitive adults despite a lack of systemic food-specific IgE

Xiao

Magnusson

Ahlstedt

et al. 2002

Journal of Allergy and Clinical Immunology

105

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Suppression of conditioned avoidance behavior by the local application of (−)sulpiride into the ventral, but not the dorsal, striatum of the rat

Wadenberg

Ericson

Magnusson

et al. 1990

Biological Psychiatry

110

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The selective dopamine D2 receptor antagonist raclopride discriminates between dopamine-mediated motor functions

et al. 1986

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The actions on central dopamine (DA) mechanisms of raclopride, a new substituted benzamide, were studied by means of behavioural and biochemical methods in the rat. Raclopride blocked the in vitro binding of the dopamine D2 antagonist 3H-spiperone (IC50 = 32 nM), but not of the unselective D1 antagonist 3H-flupenthixol (IC50 greater than 100,000 nM) in rat striatum, and failed to inhibit striatal DA-sensitive adenylate cyclase in vitro (IC50 greater than 100,000 nM). Raclopride caused a dose-dependent increase in the DA metabolites HVA and DOPAC in the striatum and olfactory tubercle. Behavioural studies showed that raclopride discriminates between the motor behaviours induced by the DA agonist apomorphine. Thus, unlike haloperidol, raclopride blocked apomorphine-induced hyperactivity at considerably lower doses than those inhibiting oral stereotypies. Moreover, raclopride showed a high separation between the doses for blockade of apomorphine-induced hyperactivity and those inducing catalepsy in rats. Raclopride caused a dose-dependent blockade of the specific binding of 3H-spiperone and 3H-N-n-propylnorapomorphine (3H-NPA) in vivo at doses similar to those blocking the behavioural effects of apomorphine. The maximal blockade of 3H-spiperone binding in vivo was lower for raclopride than for haloperidol. Raclopride caused a greater inhibition of 3H-NPA than of 3H-spiperone in vivo binding in the striatum. It is suggested that the ability of raclopride to discriminate between different DA-mediated functions may be attributed to a preferential blockade of a subclass of functionally coupled dopamine D2 receptors in striatal as well as in extrastriatal brain regions in the rat.

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O. Magnusson

Distribution of D1- and D2-Dopamine Receptors, and Dopamine and Its Metabolites in the Human Brain

Remoxipride, a new potential antipsychotic compound with selective anti-dopaminergic actions in the rat brain

Local allergic reaction in food-hypersensitive adults despite a lack of systemic food-specific IgE

Suppression of conditioned avoidance behavior by the local application of (−)sulpiride into the ventral, but not the dorsal, striatum of the rat

The selective dopamine D2 receptor antagonist raclopride discriminates between dopamine-mediated motor functions

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