1993
DOI: 10.1111/j.1471-4159.1993.tb03181.x
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Amphetamine and Other Weak Bases Act to Promote Reverse Transport of Dopamine in Ventral Midbrain Neurons

Abstract: Amphetamine-like psychostimulants are thought to produce rewarding effects by increasing dopamine levels at mesolimbic synapses. Paradoxically, dopamine uptake blockers, which generally increase extracellular dopamine, inhibit amphetamine-induced dopamine overflow. This effect could be due to either inhibition o f amphetamine uptake or inhibition of dopamine efflux through the transporter (reverse transport). We used weak bases and dopamine uptake blockers in ventral midbrain neuron cultures to separate the ef… Show more

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Cited by 267 publications
(157 citation statements)
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“…As dopamine is ionized at physiological pH, it cannot readily pass through membranes by diffusion in the absence of specific carrier molecules. Therefore, dopamine leaves the nerve terminal either by calcium-dependent exocytosis from vesicular stores, or by exchange diffusion, induced by displacement of dopamine from stores by drugs such as (+)-amphetamine (Sulzer et al, 1993). For exchange diffusion to operate, the dopamine uptake system must be functional, as inhibitors of the dopamine uptake system prevent dopamine displacement by (+)-amphetamine (Raiteri & Levi, 1978;Fisher & Cho, 1979;Parker & Cubeddu, 1988).…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…As dopamine is ionized at physiological pH, it cannot readily pass through membranes by diffusion in the absence of specific carrier molecules. Therefore, dopamine leaves the nerve terminal either by calcium-dependent exocytosis from vesicular stores, or by exchange diffusion, induced by displacement of dopamine from stores by drugs such as (+)-amphetamine (Sulzer et al, 1993). For exchange diffusion to operate, the dopamine uptake system must be functional, as inhibitors of the dopamine uptake system prevent dopamine displacement by (+)-amphetamine (Raiteri & Levi, 1978;Fisher & Cho, 1979;Parker & Cubeddu, 1988).…”
Section: Discussionmentioning
confidence: 99%
“…The hypothesis states that (+)-amphetamine acts as a substrate for the carrier molecule and accelerates the inward movement of the carrier, making it available for the outward transport of cytoplasmic free dopamine. The increase in the cytoplasmic concentration of (+ )-amphetamine results in an elevation of cytoplasmic free dopamine due to both the displacement of dopamine from intraneuronal stores (Moore, 1978;McMillan, 1983;Sulzer et al, 1993) and the monoamine oxidase inhibitory action of (+)-amphetamine (Miller et al, 1980). As a substrate for the dopamine carrier system, (+)-amphetamine also acts as a dopamine neuronal uptake inhibitor (Horn et al, 1970;Heikilla et al, 1975;Hyttel, 1978;Parker & Cubeddu, 1988).…”
Section: Introductionmentioning
confidence: 99%
“…Whereas amphetamine elevates extracellular DA levels by acting both on its reuptake and its release (Sulzer and Rayport, 1990;Sulzer et al, 1993), COC rather acts solely by the former mechanism (Ritz et al, 1990a, b). Since c-fos induction after COC administration mostly depends on D 1 receptor stimulation (Drago et al, 1996;Das et al, 1997), DAT decrease levels in TG mice should then result in a decreased COC effect on D 1 receptor.…”
Section: Modulation Of C-fos Expression In Tg Mice Following Acute Comentioning
confidence: 99%
“…We then examined the VMAT-dependent mechanism mediating APD release by the lower concentration of pCA. Amphetamines are VMAT substrates and can induce DA release from DA-containing vesicles either by acting as weak bases to reduce the vesicular pH gradient or by inducing VMAT-mediated exchange with luminal DA (14)(15)(16)(17)(18)(19). VMAT-mediated exchange can only occur with two VMAT substrate molecules (20).…”
Section: Resultsmentioning
confidence: 99%