Reduced expression and capacity of the striatal high-affinity choline transporter in hyperdopaminergic mice

Behavioral and neuronal abnormalities observed in mice exhibiting a reduced expression of the dopamine transporter model important aspects of schizophrenia, addiction, and attentional disorders. As the consequences of a chronic hyperdopaminergic tone for striatal output regulation have remained poor...

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Published in:Neuroscience 2006-01, Vol.141 (1), p.379-389
Main Authors: Parikh, V., Apparsundaram, S., Kozak, R., Richards, J.B., Sarter, M.
Format: Article
Language:English
Subjects:
acetylcholine
Acetylcholine - metabolism
Analysis of Variance
Animals
Biological and medical sciences
Blotting, Western - methods
Brain Chemistry - genetics
Choline - metabolism
Choline - pharmacology
choline transporter
Corpus Striatum - cytology
Corpus Striatum - drug effects
Corpus Striatum - metabolism
Dopamine - metabolism
Dopamine Plasma Membrane Transport Proteins - deficiency
Dose-Response Relationship, Drug
Fundamental and applied biological sciences. Psychology
Gene Expression Regulation - genetics
Gene Expression Regulation - physiology
Hemicholinium 3 - pharmacology
hyperdopaminergic mice
Membrane Transport Proteins - metabolism
Mice
Mice, Knockout
Microdialysis - methods
Neurotransmitter Uptake Inhibitors - pharmacology
striatum
Synaptosomes - drug effects
Synaptosomes - metabolism
Vertebrates: nervous system and sense organs
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Summary:Behavioral and neuronal abnormalities observed in mice exhibiting a reduced expression of the dopamine transporter model important aspects of schizophrenia, addiction, and attentional disorders. As the consequences of a chronic hyperdopaminergic tone for striatal output regulation have remained poorly understood, the present experiments were designed to determine the status of striatal interneuronal cholinergic neurotransmission in dopamine transporter knockdown animals. The high-affinity choline transporter represents the rate-limiting step of acetylcholine synthesis and release. Compared with wild type mice, striatal high-affinity choline transporter expression in dopamine transporter knockdown mice was significantly decreased. As in vivo basal striatal acetylcholine release did not differ between the strains, reduced high-affinity choline transporter expression in dopamine transporter knockdown mice was not due to reduced basal cholinergic activity. Furthermore, the proportion of high-affinity choline transporters expressed in plasma membrane-enriched versus vesicular membrane-enriched fractions did not differ from wild type animals, suggesting that changes in intracellular high-affinity choline transporter trafficking were not associated with lower overall levels of striatal high-affinity choline transporters. Synaptosomal choline uptake assays indicated a reduced capacity of striatal high-affinity choline transporters in dopamine transporter knockdown mice, and thus the functional significance of the reduced level of high-affinity choline transporter expression. Likewise, in vivo measures of the capacity of striatal high-affinity choline transporters to clear increases in extracellular choline concentrations, using choline-sensitive microelectrodes, revealed a 37–41% reduction in hemicholinium-sensitive clearance of exogenous choline in dopamine transporter knockdown mice. Furthermore, clearance of potassium-evoked choline signals was reduced in dopamine transporter knockdown mice (1.63±0.15 μM/s) compared with wild type animals (2.29±0.21 μM/s). Dysregulated striatal cholinergic neurotransmission is hypothesized to disrupt the integration of thalamic and cortical information at spiny projection neurons and thus to contribute to abnormal striatal information processing in dopamine transporter knockdown mice.
ISSN:0306-4522
1873-7544
DOI:10.1016/j.neuroscience.2006.03.055