Abstract
Methamphetamine (METH) is a central nervous system psychostimulant with a high potential for abuse. At high doses, METH causes a selective degeneration of dopaminergic terminals in the striatum. Dopamine D2 receptor antagonists and dopamine transporter (DAT) inhibitors protect against neurotoxicity of the drug by decreasing intracellular dopamine content and, consequently, dopamine autoxidation and production of reactive oxygen species. In vitro, amphetamines regulate D2 receptor and DAT functions via regulation of their intracellular trafficking. No data exists on axonal transport of both proteins and there is limited data on their interactions in vivo. The aim of the present investigation was to examine synaptosomal levels of presynaptic D2 autoreceptor and DAT after two different regimens of METH and to determine whether METH affects the D2 autoreceptor-DAT interaction in the rat striatum. We found that, as compared to saline controls, administration of single high-dose METH decreased D2 autoreceptor immunoreactivity and increased DAT immunoreactivity in rat striatal synaptosomes whereas binge high-dose METH increased immunoreactivity of D2 autoreceptor and had no effect on DAT immunoreactivity. Single METH had no effect on D2 autoreceptor-DAT interaction whereas binge METH increased the interaction between the two proteins in the striatum. Our results suggest that METH can affect axonal transport of both the D2 autoreceptor and DAT in an interaction-dependent and -independent manner.
Highlights
Dopamine (DA) receptors belong to the super-family of membrane-bound proteins, termedG-protein coupled receptors
Western blotting with antibody against dopamine transporter (DAT) revealed one band of a molecular weight of ~70 kDa (Figure 1C)
Our study directly demonstrated D2S-DAT interaction in rat striatum and showed that binge, but not single dose METH
Summary
Dopamine (DA) receptors belong to the super-family of membrane-bound proteins, termedG-protein coupled receptors. Dopamine (DA) receptors belong to the super-family of membrane-bound proteins, termed. Stimulation of D1-like receptors (D1 and D5) activates adenylyl cyclase and increases the production of cAMP. Stimulation of D2-like receptors (D2, D3 and D4). Inhibits adenylyl cyclase and cAMP production [1]. Two main different splice variants of D2 receptor are known in humans and rodents: the D2short (D2S) and D2long (D2L) built of 414 and 443 amino acids, respectively [2,3,4]. Activation of D2S receptors, which are presynaptic autoreceptors, inhibits DA synthesis and stimulation-dependent DA release [5,6,7]. The D2S receptors regulate the function of dopamine transporter (DAT), a membrane protein regulating dopaminergic (DAergic) neurotransmission by re-uptake of released DA [8,9,10]
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