The effects of p-chloroamphetamine, methamphetamine and 3,4-methylenedioxymethamphetamine (ecstasy) on the gene expression of cytoskeletal proteins in the rat brain

Effects of adolescent methamphetamine and nicotine exposure on behavioral performance and MAP-2 immunoreactivity in the nucleus accumbens of adolescent mice

The neurotoxic effects of methamphetamine (MA) exposure in the developing and adult brain can lead to behavioral alterations and cognitive deficits in adults. Previous increases in the rates of adolescent MA use necessitate that we understand the behavioral and cognitive effects of MA exposure during adolescence on the adolescent brain. Adolescents using MA exhibit high rates of nicotine (NIC) use, but the effects of concurrent MA and NIC in the adolescent brain have not been examined, and it is unknown if NIC mediates any of the effects of MA in the adolescent. In this study, the long-term effects of a neurotoxic dose of MA with or without NIC exposure during early adolescence (postnatal day 30-31) were examined later in adolescence (postnatal day 41-50) in male C57BL/6J mice. Effects on behavioral performance in the open field, Porsolt forced swim test, and conditioned place preference test, and cognitive performance in the novel object recognition test and Morris water maze were assessed. Additionally, the effects of MA and/or NIC on levels of microtubule associated-2 (MAP-2) protein in the nucleus accumbens and plasma corticosterone were examined. MA and NIC exposure during early adolescence separately decreased anxiety-like behavior in the open field test, which was not seen following co-administration of MA/NIC. There was no significant effect of early adolescent MA and/or NIC exposure on the intensity of MAP-2 immunoreactivity in the nucleus accumbens or on plasma corticosterone levels. These results show that early adolescent MA and NIC exposure separately decrease anxiety-like behavior in the open field, and that concurrent MA and NIC exposure does not induce the same behavioral change as either drug alone.

Methamphetamine alters reference gene expression in nigra and striatum of adult rat brain

The nigrostriatal dopaminergic system is a major lesion target for methamphetamine (MA), one of the most addictive and neurotoxic drugs of abuse. High doses of MA alter the expression of a large number of genes. Reference genes (RGs) are considered relatively stable and are often used as standards for quantitative real-time PCR (qRT-PCR) reactions. The purpose of this study was to determine whether MA altered the expression of RGs and to identify the appropriate RGs for gene expression studies in animals receiving MA. Adult male Sprague-Dawley rats were treated with high doses of MA or saline. Striatum and substantia nigra were harvested at 2h or 24h after MA administration. The expression and stability of 10 commonly used RGs were examined using qRT-PCR and then evaluated by geNorm and Normfinder. We found that MA altered the expression of selected RGs. These candidate RGs presented differential stability in the striatum and in substantia nigra at both 2h and 24h after MA injection. Selection of an unstable RG as a standard altered the significance of tyrosine hydroxylase (TH) mRNA expression after MA administration. In conclusion, our data show that MA site- and time-dependently altered the expression of RGs in nigrostriatal dopaminergic system. These temporal and spatial factors should be considered when selecting appropriate RGs for interpreting the expression of target genes in animals receiving MA.

Altered postsynaptic-density-levels of caldendrin in the para-chloroamphetamine-induced serotonin syndrome but not in the rat ketamine model of psychosis

Caldendrin is a synaptic calcium sensor protein that is tightly associated with the postsynaptic density (PSD). Previous work has shown that the association of the protein with the synapse is highly dynamic and is increased in an activity-dependent manner. In the present study the caldendrin-association with the postsynaptic cytomatrix was analyzed in animal models of psychosis and drug abuse induced neurotoxicity. Subchronic administration of the N-methyl-D-aspartate (NMDA)-receptor antagonist ketamine, serving as a model of NMDA-receptor hypofunction and schizophrenia showed no significant effect on the PSD-levels of caldendrin, indicating that NMDA-receptor activity is not required to keep caldendrin at the synapse. However, administration of high doses of the serotonergic neurotoxin p-chloroamphetamine (PCA) lead to significant changes in the association of caldendrin with the PSD. These results underscore the dynamic association of caldendrin with the PSD and suggest a role of this synaptic calcium sensor in the PCA-induced serotonin syndrome.

Proteomic analysis of methamphetamine-induced reinforcement processes within the mesolimbic dopamine system

ABSTRACT Methamphetamine (MAP) is a commonly used, addictive drug, and a powerful stimulant that dramatically affects the central nervous system. In this study, we used the conditioned place preference (CPP) paradigm in order to study the reinforcing properties of MAP and the herewith associated changes in proteins within the mesolimbic dopamine system. A CPP was induced by MAP after three intermittent intraperitoneal injections (1 mg/kg) in rats and protein profiles in the nucleus accumbens, striatum, prefrontal cortex, cingulate cortex and hippocampus were compared with a saline-treated control group. In addition, a group of animals was run through extinction and protein profiles were compared with a non-extinguished group. Protein screening was conducted using two-dimensional electrophoresis analysis which identified 27 proteins in the group that showed MAP-induced CPP. Some of the proteins were confirmed by Western lot analysis. Identified proteins had functions related to the cytoskeleton, transport/endocytosis or exocytosis (e.g. profilin-2 and syntaxin-binding protein), and signal transduction, among others.