Age-dependent effects of methamphetamine on VMAT-2.

Abuse of methamphetamine (METH) among adolescents and young adults is concerning since studies have demonstrated that multiple administrations of high-dose METH induce persistent dopaminergic deficits. METH has also been shown to reduce dopamine (DA) uptake by the vesicular monoamine transporter-2 (VMAT-2) and to reduce the amount of VMAT-2 protein in a purified vesicular fraction. VMAT-2 plays a critical role in the sequestration of DA in dopaminergic nerve terminals.

Methamphetamine administration reduces hippocampal vesicular monoamine transporter-2 uptake.

Repeated high-dose injections of methamphetamine (METH) rapidly decrease dopamine uptake by the vesicular monoamine transporter-2 (VMAT-2) associated with dopaminergic nerve terminals, as assessed in nonmembrane-associated vesicles purified from striata of treated rats. The purpose of this study was to determine whether METH similarly affects vesicular uptake in the hippocampus; a region innervated by both serotonergic and noradrenergic neurons and profoundly affected by METH treatment. Results revealed that repeated high-dose METH administrations rapidly (within 1 h) reduced hippocampal vesicular dopamine uptake, as assessed in vesicles purified from treated rats.

Bupropion increases striatal vesicular monoamine transport.

The vesicular monoamine transporter-2 (VMAT-2) is principally involved in regulating cytoplasmic dopamine (DA) concentrations within terminals by sequestering free DA into synaptic vesicles. This laboratory previously identified a correlation between striatal vesicular DA uptake through VMAT-2 and inhibition of the DA transporter (DAT). For example, administration of methylphenidate (MPD), a DAT inhibitor, increases vesicular DA uptake through VMAT-2 in a purified vesicular preparation; an effect associated with a redistribution of VMAT-2 protein within DA terminals.

The methamphetamine experience: a NIDA partnership.

The neurotoxic properties of the amphetamines such as methamphetamine (METH) were originally described about the time of the National Institute on Drug Abuse's organization, in the early 1970s. It required more than 20 years to confirm these neurotoxic properties in humans. Much like Parkinson's disease, multiple high-dose administration of METH somewhat selectively damages the nigrostriatal dopamine (DA) projection of the brain.

Methamphetamine increases dopamine transporter higher molecular weight complex formation via a dopamine- and hyperthermia-associated mechanism.

Multiple high-dose administrations of methamphetamine (METH) both rapidly (within hours) decrease plasmalemmal dopamine (DA) uptake and cause long-term deficits in DA transporter (DAT) levels and other dopaminergic parameters persisting weeks to months in rat striatum. In contrast, either a single administration of METH or multiple administrations of methylenedioxymethamphetamine (MDMA) cause less of an acute reduction in DA uptake and little or no persistent dopaminergic deficits. The long-term dopaminergic deficits caused by METH have been suggested, in part, to involve the DAT.

Pramipexole increases vesicular dopamine uptake: implications for treatment of Parkinson's neurodegeneration.

Pramipexole is a dopamine D2/D3 receptor agonist used to treat Parkinson's disease. Both human and animal studies suggest that pramipexole may exhibit neuroprotective properties involving dopamine neurons. However, mechanisms underlying its neuroprotective effects remain uncertain.

Methamphetamine rapidly decreases mouse vesicular dopamine uptake: role of hyperthermia and dopamine D2 receptors.

Multiple high-dose administrations of the dopamine-releasing agent, methamphetamine, rapidly and persistently decrease vesicular dopamine uptake in purified vesicles prepared from striata of treated rats. Because important differences in the neurotoxic effects of stimulants have been documented in rats and mice, the purpose of this study was to determine if methamphetamine-induced effects in rats occur in mice and to elucidate mechanisms underlying these effects. Results reveal methamphetamine treatment rapidly decreased mouse striatal vesicular dopamine uptake; a phenomenon associated with a subcellular redistribution of vesicular monoamine transporter-2 (VMAT-2) immunoreactivity.

Ceramide-induced alterations in dopamine transporter function.

The purpose of this study was to determine the effects of ceramide on dopamine and serotonin (5-HT, 5-hydroxytryptamine) transporters. Exposure of rat striatal synaptosomes to C2-ceramide caused a reversible, concentration-dependent decrease in plasmalemmal dopamine uptake. In contrast, ceramide exposure increased striatal 5-HT synaptosomal uptake.

Inhibitory effect of reserpine on dopamine transporter function.

Previous studies indicate that reserpine may disrupt dopamine transporter activity. Results presented herein reveal that it also inhibits potently synaptosomal [3H]dopamine uptake. In addition, reserpine administration to rats decreased the V(max) of synaptosomal dopamine transport, as assessed ex vivo 12 h after treatment.