Methamphetamine treatment causes delayed decrease in novelty-induced locomotor activity in mice

Methamphetamine (METH) is a psychostimulant that causes damage to dopamine (DA) axons and to non-monoaminergic neurons in the brain. The aim of the present study was to investigate short- and long-term effects of neurotoxic METH treatment on novelty-induced locomotor activity in mice. Male BALB/c mi...

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Veröffentlicht in:	Neuroscience research 2009-10, Vol.65 (2), p.160-165
Hauptverfasser:	Krasnova, Irina N., Hodges, Amber B., Ladenheim, Bruce, Rhoades, Raina, Phillip, Crystal G., Ceseňa, Angela, Ivanova, Ekaterina, Hohmann, Christine F., Cadet, Jean Lud
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Sprache:	eng
Schlagworte:	Age Factors Aging - metabolism Amphetamine-Related Disorders - physiopathology Animals Brain - drug effects Brain - metabolism Brain - physiopathology Central Nervous System Stimulants - toxicity Cerebral Cortex - drug effects Cerebral Cortex - metabolism Cerebral Cortex - physiopathology Corpus Striatum - drug effects Corpus Striatum - metabolism Corpus Striatum - physiopathology Cortex Disease Models, Animal Dopamine Dopamine - metabolism Exploratory Behavior - drug effects Exploratory Behavior - physiology Male Methamphetamine Methamphetamine - toxicity Mice Mice, Inbred BALB C Motor Activity - drug effects Motor Activity - physiology Nerve Degeneration - chemically induced Nerve Degeneration - metabolism Nerve Degeneration - physiopathology Neurotoxicity Novelty-induced locomotor activity Presynaptic Terminals - drug effects Presynaptic Terminals - metabolism Presynaptic Terminals - pathology Striatum
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container_title	Neuroscience research
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description	Methamphetamine (METH) is a psychostimulant that causes damage to dopamine (DA) axons and to non-monoaminergic neurons in the brain. The aim of the present study was to investigate short- and long-term effects of neurotoxic METH treatment on novelty-induced locomotor activity in mice. Male BALB/c mice, 12–14 weeks old, were injected with saline or METH (i.p., 7.5 mg/kg × 4 times, every 2 h). Behavior and neurotoxic effects were assessed at 10 days, 3 and 5 months following drug treatment. METH administration caused marked decreases in DA levels in the mouse striatum and cortex at 10 days post-drug. However, METH did not induce any changes in novelty-induced locomotor activity. At 3 and 5 months after treatment METH-exposed mice showed significant recovery of DA levels in the striatum and cortex. In contrast, these animals demonstrated significant decreases in locomotor activity at 5 months in comparison to aged-matched control mice. Further assessment of METH toxicity using TUNEL staining showed that the drug induced increased cell death in the striatum and cortex at 3 days after administration. Taken together, these data suggest that delayed deficits in novelty-induced locomotor activity observed in METH-exposed animals are not due to neurodegeneration of DA terminals but to combined effects of METH and age-dependent dysfunction of non-DA intrinsic striatal and/or corticostriatal neurons.
doi_str_mv	10.1016/j.neures.2009.06.007
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subjects	Age Factors Aging - metabolism Amphetamine-Related Disorders - physiopathology Animals Brain - drug effects Brain - metabolism Brain - physiopathology Central Nervous System Stimulants - toxicity Cerebral Cortex - drug effects Cerebral Cortex - metabolism Cerebral Cortex - physiopathology Corpus Striatum - drug effects Corpus Striatum - metabolism Corpus Striatum - physiopathology Cortex Disease Models, Animal Dopamine Dopamine - metabolism Exploratory Behavior - drug effects Exploratory Behavior - physiology Male Methamphetamine Methamphetamine - toxicity Mice Mice, Inbred BALB C Motor Activity - drug effects Motor Activity - physiology Nerve Degeneration - chemically induced Nerve Degeneration - metabolism Nerve Degeneration - physiopathology Neurotoxicity Novelty-induced locomotor activity Presynaptic Terminals - drug effects Presynaptic Terminals - metabolism Presynaptic Terminals - pathology Striatum
title	Methamphetamine treatment causes delayed decrease in novelty-induced locomotor activity in mice
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