Hyperlocomotion and indifference to cocaine and amphetamine in mice lacking the dopamine transporter

B Giros, M Jaber, SR Jones, RM Wightman, MG Caron - Nature, 1996 - nature.com
Nature, 1996nature.com
Disruption of the mouse dopamine transporter gene results in spontaneous hyperlocomotion
despite major adaptive changes, such as decreases in neurotransmitter and receptor levels.
In homozygote mice, dopamine persists at least 100 times longer in the extracellular space,
explaining the biochemical basis of the hyperdopaminergic phenotype and demonstrating
the critical role of the transporter in regulating neurotransmission. The dopamine transporter
is an obligatory target of cocaine and amphetamine, as these psychostimulants have no …
Abstract
Disruption of the mouse dopamine transporter gene results in spontaneous hyperlocomotion despite major adaptive changes, such as decreases in neurotransmitter and receptor levels. In homozygote mice, dopamine persists at least 100 times longer in the extracellular space, explaining the biochemical basis of the hyperdopaminergic phenotype and demonstrating the critical role of the transporter in regulating neurotransmission. The dopamine transporter is an obligatory target of cocaine and amphetamine, as these psychostimulants have no effect on locomotor activity or dopamine release and uptake in mice lacking the transporter.
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