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Query: EC:2.3.1.107 (
DAT
)
1,471
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The effects of amphetamine and cocaine were studied in [3H]-dopamine-loaded and superfused COS-7 cells transfected with either the cDNA of the plasmalemmal dopamine transporter ("DAT cells") or the cDNA of the vesicular amine transporter ("VAT cells"), or with both transporters ("DAT/VAT cells").
Amphetamine
(0.01-100 microM, added for 4 min of superfusion) led to a concentration-dependent increase in dopamine release in
DAT
cells, as well as in
DAT
/VAT cells. The EC50 of the effect of amphetamine on
DAT
cells was 1.1 +/- 0.6 microM; the effect on
DAT
/VAT cells did not reach a plateau in the concentration range tested. With longer exposure to amphetamine, dopamine efflux from
DAT
cells reached a peak and quickly returned to baseline, in spite of the continued presence of the drug, whereas in
DAT
/VAT cells and in VAT cells the effect was sustained. Cocaine (up to 100 microM) did not exert any effect of its own in
DAT
cells or VAT cells but inhibited the amphetamine-induced release of dopamine from
DAT
cells in a competitive manner. In
DAT
/VAT cells cocaine and its analogue (-)-2 beta-carbomethoxy-3 beta-(4-fluorophenyl)tropane caused an efflux of dopamine resembling that caused by amphetamine but quantitatively much smaller. The rank order of potency was the same as in uptake experiments [(-)-2 beta-carbomethoxy-3 beta-(4-fluorophenyl)tropane > cocaine]. The effect of cocaine was mimicked by the reduction of chloride. The results indicate that there is a plasmalemmal component and a vesicular component in the dopamine-releasing action of amphetamine. The releasing action of cocaine is dependent on the existence of a vesicular pool of the neurotransmitter and seems to be linked to inhibition of the plasmalemmal dopamine transporter.
...
PMID:Mechanism of the dopamine-releasing actions of amphetamine and cocaine: plasmalemmal dopamine transporter versus vesicular monoamine transporter. 787 46
Amphetamine
(
AMPH
) elicits its behavioral effects by acting on the dopamine (DA) transporter (
DAT
) to induce DA overflow into the synaptic cleft. Facilitated exchange diffusion is the classical model used to describe
AMPH
-induced DA efflux. This model hypothesizes that
AMPH
-induced DA efflux is mediated by
DAT
and results from the transport of
AMPH
into the cell followed by a counter movement of DA out to the extracellular compartment. To further characterize the action of
AMPH
, we used the patch clamp technique in the whole-cell configuration combined with amperometry on human embryonic kidney HEK-293 cells stably transfected with the human
DAT
(
DAT
cells). In
DAT
cells,
AMPH
-induced
DAT
-mediated currents were blocked by cocaine. We demonstrate that DA efflux mediated by
DAT
is voltage-dependent, electrogenic, and dependent on intracellular Na(+) concentration in the recording electrode. Intracellular Na(+) fluorescence, as measured by confocal microscopy using a Na(+)-sensitive dye, was enhanced by
AMPH
application. Furthermore, the ability of
AMPH
to induce DA efflux was regulated by intracellular Na(+) concentration and correlated with the size of the
DAT
-mediated,
AMPH
-induced ion flux across the plasma membrane. In the absence of intracellular Na(+) but the presence of high intracellular Cl(-),
AMPH
-induced inward currents elicited DA efflux proportionally to their dimension and duration. Thus, we propose that
AMPH
-induced DA efflux depends on two correlated transporter processes. First,
AMPH
binds to the
DAT
and is transported, thereby causing an inward current. Second, because of this
AMPH
-induced inward current, Na(+) becomes more available intracellularly to the
DAT
, thereby enhancing
DAT
-mediated reverse transport of DA.
...
PMID:Amphetamine-induced dopamine efflux. A voltage-sensitive and intracellular Na+-dependent mechanism. 1255 46
The vesicular monoamine transporter 2 (VMAT2) plays a pivotal role in regulating the size of vesicular and cytosolic dopamine (DA) storage pools within the CNS, and can thus influence extracellular DA neurotransmission. Transgenic mice have been generated with a dramatically reduced (by approximately 95%) expression of the VMAT2 gene which, unlike complete knockout lines, survive into adulthood. We compared the pre-synaptic regulation of both impulse-dependent (exocytotic) and carrier-mediated (via reversal of the DA transporter,
DAT
) DA release in the dorsolateral caudate putamen (CPu) of striatal slices derived from adult homozygous VMAT2 mutant and wild-type mice using fast cyclic voltammetry. Impulse-dependent DA release, evoked by a single electrical pulse, was lower in homozygous (116 nm) than wild-type mice (351 nm) indicating smaller vesicular DA stores, an observation supported by the evanescent effect of amfonelic acid (300 nm) in homozygous mice.
Amphetamine
(2 microm) increased extracellular DA via
DAT
reversal in both wild-type (by 459 nm) and VMAT2 mutant (by 168 nm, p < 0.01 vs. wild-type) mice. In both cases, the effect was blocked by the
DAT
inhibitor GBR12935 (1 microm). Simultaneously, amphetamine decreased impulse-dependent DA release, albeit less in homozygous (by 55%) than in wild-type (by 78%) mice. In wild-types, this decrement was largely reversed by GBR12935 but not by the D2/D3 autoreceptor antagonist (-)sulpiride (1 microm). Conversely, in homozygous VMAT2 mutant mice, it was attenuated by (-)sulpiride but not GBR12935. The D2/D3 receptor agonist quinpirole inhibited impulse-dependent DA release with a lower EC50 value in homozygous mice (12 nm) compared with wild-types (34 nm), indicating the compensatory presence of functionally supersensitive release-regulating autoreceptors. However, analysis of DA reuptake kinetics obtained in the absence and presence of
DAT
blockade (by cocaine and amfonelic acid) revealed only minor differences in
DAT
functionality. These results demonstrate that impaired vesicular DA storage constrains extracellular DA levels in the dorsolateral CPu whether induced by either impulse-dependent or carrier-mediated mechanisms and that the relative importance of the
DAT
and terminal autoreceptors as control mechanisms in the actions of amphetamine are reversed in VMAT2 mutant mice.
...
PMID:Presynaptic control of striatal dopamine neurotransmission in adult vesicular monoamine transporter 2 (VMAT2) mutant mice. 1271 22
Amphetamine
(
AMPH
) elicits its behavioral effects by acting on the dopamine (DA) transporter (
DAT
) to induce DA efflux into the synaptic cleft. We previously demonstrated that a human
DAT
construct in which the first 22 amino acids were truncated was not phosphorylated by activation of protein kinase C, in contrast to wild-type (WT)
DAT
, which was phosphorylated. Nonetheless, in all functions tested to date, which include uptake, inhibitor binding, oligomerization, and redistribution away from the cell surface in response to protein kinase C activation, the truncated
DAT
was indistinguishable from the full-length WT
DAT
. Here, however, we show that in HEK-293 cells stably expressing an N-terminal-truncated
DAT
(del-22
DAT
),
AMPH
-induced DA efflux is reduced by approximately 80%, whether measured by superfusion of a population of cells or by amperometry combined with the patch-clamp technique in the whole cell configuration. We further demonstrate in a full-length
DAT
construct that simultaneous mutation of the five N-terminal serine residues to alanine (S/A) produces the same phenotype as del-22-normal uptake but dramatically impaired efflux. In contrast, simultaneous mutation of these same five serines to aspartate (S/D) to simulate phosphorylation results in normal
AMPH
-induced DA efflux and uptake. In the S/A background, the single mutation to Asp of residue 7 or residue 12 restored a significant fraction of WT efflux, whereas mutation to Asp of residues 2, 4, or 13 was without significant effect on efflux. We propose that phosphorylation of one or more serines in the N-terminus of human
DAT
, most likely Ser7 or Ser12, is essential for
AMPH
-induced
DAT
-mediated DA efflux. Quite surprisingly, N-terminal phosphorylation shifts
DAT
from a "reluctant" state to a "willing" state for
AMPH
-induced DA efflux, without affecting inward transport. These data raise the therapeutic possibility of interfering selectively with
AMPH
-induced DA efflux without altering physiological DA uptake.
...
PMID:N-terminal phosphorylation of the dopamine transporter is required for amphetamine-induced efflux. 1502 26
Autoxidation pathways and redox reactions of dihydroxytryptamines (5,6- and 5,7-DHT) and of 6-hydroxydopamine (6-OH-DA) are illustrated, and their potential role in aminergic neurotoxicity is discussed. It is proposed that certain aspects of the cytotoxicity of 6-OH-DA and of the DHTs, namely redox cycling of their quinone- and quinoneimine-intermediates as a source of free radicals, may also apply to quinoidal reactive intermediates and to glutathionyl- or cysteinyl conjugates ("thioether adducts") of o-dihydroxylated (catechol-like) metabolites of certain substituted amphetamines (of methylenedioxymethamphetamine (MDMA) and of methylenedioxyamphetamine (MDA)). Despite similarities in their primary interaction with the plasmalemmal (serotonergic transporter/dopamine transporter, SERT/
DAT
) and vesicular monoamine transporters (VMAT2), MDMA and fenfluramine (N-ethyl-meta-trifluoromethamphetamine, Fen) differ substantially in many aspects of their metabolism, pharmacokinetics, pharmacology, and neurotoxicology profile; the consequences of these differences for neuronal response patterns and long-term survival prospects are not yet fully understood. However, sustained hyperthermia appears to be a critical factor in these differences. Methodological requirements for adequate detection and description of pre- and postsynaptic forms of drug-induced neurotoxicity are exemplified using recently published accounts. The inclusion of microglial markers into research strategies has widened contemporary pathogenetic concepts on methamphetamine (MA)-induced neurotoxicity as an example of inflammatory neurodegeneration, thus complementing the traditional ROS and RNS-dependent stress models.
Amphetamine
-type neurotoxicity studies may assist in elaborating of preventive strategies for human neurodegenerative disorders.
...
PMID:Serotonin neurotoxins--past and present. 1563 91
Amphetamine
(
AMPH
) is a potent dopamine (DA) transporter (
DAT
) inhibitor that markedly increases extracellular DA levels. In addition to its actions as a
DAT
antagonist, acute
AMPH
exposure induces
DAT
losses from the plasma membrane, implicating transporter-specific membrane trafficking in amphetamine's actions. Despite reports that
AMPH
modulates
DAT
surface expression, the trafficking mechanisms leading to this effect are currently not defined. We recently reported that
DAT
residues 587-596 play an integral role in constitutive and protein kinase C (PKC)-accelerated
DAT
internalization. In the current study, we tested whether the structural determinants required for PKC-stimulated
DAT
internalization are necessary for
AMPH
-induced
DAT
sequestration. Acute amphetamine exposure increased
DAT
endocytic rates, but
DAT
carboxy terminal residues 587-590, which are required for PKC-stimulated internalization, were not required for
AMPH
-accelerated
DAT
endocytosis.
AMPH
decreased
DAT
endocytic recycling, but did not modulate transferrin receptor recycling, suggesting that
AMPH
does not globally diminish endocytic recycling. Finally, treatment with a PKC inhibitor demonstrated that
AMPH
-induced
DAT
losses from the plasma membrane were not dependent upon PKC activity. These results suggest that the mechanisms responsible for
AMPH
-mediated
DAT
internalization are independent from those governing PKC-sensitive
DAT
endocytosis.
...
PMID:Amphetamine-induced decreases in dopamine transporter surface expression are protein kinase C-independent. 1816 41
The soluble N-ethylmaleimide-sensitive factor attachment protein receptor protein syntaxin 1A (SYN1A) interacts with and regulates the function of transmembrane proteins, including ion channels and neurotransmitter transporters. Here, we define the first 33 amino acids of the N terminus of the dopamine (DA) transporter (
DAT
) as the site of direct interaction with SYN1A.
Amphetamine
(
AMPH
) increases the association of SYN1A with human
DAT
(hDAT) in a heterologous expression system (hDAT cells) and with native
DAT
in murine striatal synaptosomes. Immunoprecipitation of
DAT
from the biotinylated fraction shows that the
AMPH
-induced increase in
DAT
/SYN1A association occurs at the plasma membrane. In a superfusion assay of DA efflux, cells overexpressing SYN1A exhibited significantly greater
AMPH
-induced DA release with respect to control cells. By combining the patch-clamp technique with amperometry, we measured DA release under voltage clamp. At -60 mV, a physiological resting potential,
AMPH
did not induce DA efflux in hDAT cells and DA neurons. In contrast, perfusion of exogenous SYN1A (3 microM) into the cell with the whole-cell pipette enabled
AMPH
-induced DA efflux at -60 mV in both hDAT cells and DA neurons. It has been shown recently that Ca2+/calmodulin-dependent protein kinase II (CaMKII) is activated by
AMPH
and regulates
AMPH
-induced DA efflux. Here, we show that
AMPH
-induced association between
DAT
and SYN1A requires CaMKII activity and that inhibition of CaMKII blocks the ability of exogenous SYN1A to promote DA efflux. These data suggest that
AMPH
activation of CaMKII supports
DAT
/SYN1A association, resulting in a mode of
DAT
capable of DA efflux.
...
PMID:Syntaxin 1A interaction with the dopamine transporter promotes amphetamine-induced dopamine efflux. 1861 32
New psychoactive substances (NPS) with amphetamine-, aminoindan-, and benzofuran basic chemical structures have recently emerged for recreational drug use. Detailed information about their psychotropic effects and health risks is often limited. At the same time, it emerged that the pharmacological profiles of these NPS resemble those of amphetamine or 3,4-methylenedioxymethamphetamine (MDMA).
Amphetamine
-like NPS induce psychostimulation and euphoria mediated predominantly by norepinephrine (NE) and dopamine (DA) transporter (NET and
DAT
) inhibition and transporter-mediated release of NE and DA, thus showing a more catecholamine-selective profile. MDMA-like NPS frequently induce well-being, empathy, and prosocial effects and have only moderate psychostimulant properties. These MDMA-like substances primarily act by inhibiting the serotonin (5-HT) transporter (SERT) and NET, also inducing 5-HT and NE release. Monoamine receptor interactions vary considerably among amphetamine- and MDMA-like NPS. Clinically, amphetamine- and MDMA-like NPS can induce sympathomimetic toxicity. The aim of this chapter is to review the state of knowledge regarding these substances with a focus on the description of the in vitro pharmacology of selected amphetamine- and MDMA-like NPS. In addition, it is aimed to provide links between pharmacological profiles and in vivo effects and toxicity, which leads to the conclusion that abuse liability for amphetamine-like NPS may be higher than for MDMA-like NPS, but that the risk for developing the life-threatening serotonin syndrome may be increased for MDMA-like NPS.
...
PMID:Pharmacology of MDMA- and Amphetamine-Like New Psychoactive Substances. 2963 78
Amphetamine
(
AMPH
) abuse is a serious public health problem due to the high addictive potential of this drug, whose use is related to severe brain neurotoxicity and memory impairments. So far, therapies for psychostimulant addiction have had limited efficacy. Omega-3 polyunsaturated fatty acids (n-3 PUFA) have shown beneficial influences on the prevention and treatment of several diseases that affect the central nervous system. Here, we assessed the influence of fish oil (FO), which is rich in n-3 PUFA, on withdrawal and relapse symptoms following re-exposure to
AMPH
. Male Wistar rats received d,l-
AMPH
or vehicle in the conditioned place preference (CPP) paradigm for 14 days. Then, half of each experimental group was treated with FO (3 g/kg, p.o.) for 14 days. Subsequently, animals were re-exposed to
AMPH
-CPP for three additional days, in order to assess relapse behavior. Our findings have evidenced that FO prevented relapse induced by
AMPH
reconditioning. While FO prevented
AMPH
-induced oxidative damages in the prefrontal cortex, molecular assays allowed us to observe that it was also able to modulate dopaminergic cascade markers (
DAT
, TH, VMAT-2, D1R and D2R) in the same brain area, thus preventing
AMPH
-induced molecular changes. To the most of our knowledge, this is the first study to show a natural alternative tool which is able to prevent psychostimulant relapse following drug withdrawal. This non-invasive and healthy nutraceutical may be considered as an adjuvant treatment in detoxification clinics.
...
PMID:Omega-3 decreases D1 and D2 receptors expression in the prefrontal cortex and prevents amphetamine-induced conditioned place preference in rats. 3095 72
