Co-release of noradrenaline and dopamine from noradrenergic neurons in the cerebral cortex induced by clozapine, the prototype atypical antipsychotic

Co-release of noradrenaline and dopamine from noradrenergic neurons in the cerebral cortex induced by clozapine, the prototype atypical antipsychotic

Clozapine has been shown to increase extracellular dopamine (DA) and noradrenaline (NA) in the medial prefrontal cortex (mPFC). A recent study of ours suggested that extracellular DA in the PFC originates not only from dopaminergic but also from noradrenergic terminals, its release being controlled...

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Veröffentlicht in:Psychopharmacologia 2003-04, Vol.167 (1), p.79-84
Hauptverfasser: DEVOTO, Paola, FLORE, Giovanna, VACCA, Giada, PIRA, Luigi, ARCA, Alessandra, CASU, Maria Antonietta, PANI, Luca, GESSA, Gian Luigi
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Sprache:eng
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Adrenergic alpha-Agonists - pharmacology
Animals
Antipsychotic Agents - pharmacology
Biological and medical sciences
Cerebral Cortex - drug effects
Cerebral Cortex - metabolism
Chromatography, High Pressure Liquid
Clonidine - pharmacology
Clozapine - pharmacology
Dopamine - metabolism
Dopamine - secretion
Dopamine Agonists - pharmacology
Extracellular Space - metabolism
Immunohistochemistry
Male
Medical sciences
Microdialysis
Neurons - drug effects
Neurons - metabolism
Neuropharmacology
Norepinephrine - metabolism
Norepinephrine - secretion
Occipital Lobe - drug effects
Occipital Lobe - metabolism
Pharmacology. Drug treatments
Prefrontal Cortex - drug effects
Prefrontal Cortex - metabolism
Psycholeptics: tranquillizer, neuroleptic
Psychology. Psychoanalysis. Psychiatry
Psychopharmacology
Quinpirole - pharmacology
Rats
Rats, Sprague-Dawley
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container_end_page 84
container_issue 1
container_start_page 79
container_title Psychopharmacologia
container_volume 167
creator DEVOTO, Paola
FLORE, Giovanna
VACCA, Giada
PIRA, Luigi
ARCA, Alessandra
CASU, Maria Antonietta
PANI, Luca
GESSA, Gian Luigi
description Clozapine has been shown to increase extracellular dopamine (DA) and noradrenaline (NA) in the medial prefrontal cortex (mPFC). A recent study of ours suggested that extracellular DA in the PFC originates not only from dopaminergic but also from noradrenergic terminals, its release being controlled by alpha(2)-adrenoceptors. Since clozapine binds to alpha(2)-adrenoceptors, the possibility that it might co-release DA and NA was studied. By means of microdialysis coupled to HPLC with electrochemical detection, the effect of clozapine on extracellular DA and NA in the mPFC, densely innervated by DA and NA, was compared to that in the occipital cortex, equally innervated by NA but receiving few DA projections. Extracellular NA was found to be the same in the two cortices, consistent with homogeneous NA innervation. On the other hand, extracellular DA in the occipital cortex was only 29% lower than in the mPFC, in spite of the scarce dopaminergic innervation in the occipital cortex. Clozapine (10 mg/kg IP) increased extracellular DA and NA not only in the mPFC (by about 320% and 290%, respectively) but also in the occipital cortex (by 560% and 230%, respectively). Administration of the alpha(2)-agonist clonidine (0.15 mg/kg) reversed the effect of clozapine in both cortices, while the D(2)-agonist quinpirole (0.1 mg/kg IP) was ineffective. The results suggest that clozapine, by inhibiting alpha(2)-adrenoceptors, co-releases DA and NA from noradrenergic terminals in the occipital cortex and that the same mechanism might be responsible for the concomitant increase of the two monoamines in the mPFC.
doi_str_mv 10.1007/s00213-002-1381-y
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A recent study of ours suggested that extracellular DA in the PFC originates not only from dopaminergic but also from noradrenergic terminals, its release being controlled by alpha(2)-adrenoceptors. Since clozapine binds to alpha(2)-adrenoceptors, the possibility that it might co-release DA and NA was studied. By means of microdialysis coupled to HPLC with electrochemical detection, the effect of clozapine on extracellular DA and NA in the mPFC, densely innervated by DA and NA, was compared to that in the occipital cortex, equally innervated by NA but receiving few DA projections. Extracellular NA was found to be the same in the two cortices, consistent with homogeneous NA innervation. On the other hand, extracellular DA in the occipital cortex was only 29% lower than in the mPFC, in spite of the scarce dopaminergic innervation in the occipital cortex. Clozapine (10 mg/kg IP) increased extracellular DA and NA not only in the mPFC (by about 320% and 290%, respectively) but also in the occipital cortex (by 560% and 230%, respectively). Administration of the alpha(2)-agonist clonidine (0.15 mg/kg) reversed the effect of clozapine in both cortices, while the D(2)-agonist quinpirole (0.1 mg/kg IP) was ineffective. 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Clozapine (10 mg/kg IP) increased extracellular DA and NA not only in the mPFC (by about 320% and 290%, respectively) but also in the occipital cortex (by 560% and 230%, respectively). Administration of the alpha(2)-agonist clonidine (0.15 mg/kg) reversed the effect of clozapine in both cortices, while the D(2)-agonist quinpirole (0.1 mg/kg IP) was ineffective. 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A recent study of ours suggested that extracellular DA in the PFC originates not only from dopaminergic but also from noradrenergic terminals, its release being controlled by alpha(2)-adrenoceptors. Since clozapine binds to alpha(2)-adrenoceptors, the possibility that it might co-release DA and NA was studied. By means of microdialysis coupled to HPLC with electrochemical detection, the effect of clozapine on extracellular DA and NA in the mPFC, densely innervated by DA and NA, was compared to that in the occipital cortex, equally innervated by NA but receiving few DA projections. Extracellular NA was found to be the same in the two cortices, consistent with homogeneous NA innervation. On the other hand, extracellular DA in the occipital cortex was only 29% lower than in the mPFC, in spite of the scarce dopaminergic innervation in the occipital cortex. Clozapine (10 mg/kg IP) increased extracellular DA and NA not only in the mPFC (by about 320% and 290%, respectively) but also in the occipital cortex (by 560% and 230%, respectively). Administration of the alpha(2)-agonist clonidine (0.15 mg/kg) reversed the effect of clozapine in both cortices, while the D(2)-agonist quinpirole (0.1 mg/kg IP) was ineffective. The results suggest that clozapine, by inhibiting alpha(2)-adrenoceptors, co-releases DA and NA from noradrenergic terminals in the occipital cortex and that the same mechanism might be responsible for the concomitant increase of the two monoamines in the mPFC.</abstract><cop>Berlin</cop><pub>Springer</pub><pmid>12632247</pmid><doi>10.1007/s00213-002-1381-y</doi><tpages>6</tpages></addata></record>
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subjects Adrenergic alpha-Agonists - pharmacology
Animals
Antipsychotic Agents - pharmacology
Biological and medical sciences
Cerebral Cortex - drug effects
Cerebral Cortex - metabolism
Chromatography, High Pressure Liquid
Clonidine - pharmacology
Clozapine - pharmacology
Dopamine - metabolism
Dopamine - secretion
Dopamine Agonists - pharmacology
Extracellular Space - metabolism
Immunohistochemistry
Male
Medical sciences
Microdialysis
Neurons - drug effects
Neurons - metabolism
Neuropharmacology
Norepinephrine - metabolism
Norepinephrine - secretion
Occipital Lobe - drug effects
Occipital Lobe - metabolism
Pharmacology. Drug treatments
Prefrontal Cortex - drug effects
Prefrontal Cortex - metabolism
Psycholeptics: tranquillizer, neuroleptic
Psychology. Psychoanalysis. Psychiatry
Psychopharmacology
Quinpirole - pharmacology
Rats
Rats, Sprague-Dawley
title Co-release of noradrenaline and dopamine from noradrenergic neurons in the cerebral cortex induced by clozapine, the prototype atypical antipsychotic
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