Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
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Gene/Protein
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Drug
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Target Concepts:
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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 human dopamine transporter (hDAT) contains an endogenous high affinity
Zn2+
binding site with three coordinating residues on its extracellular face (His193, His375, and Glu396). Upon binding to this site,
Zn2+
causes inhibition of [3H]1-methyl-4-phenylpyridinium ([3H]MPP+) uptake. We investigated the effect of
Zn2+
on outward transport by superfusing hDAT-expressing HEK-293 cells preloaded with [3H]MPP+. Although
Zn2+
inhibited uptake,
Zn2+
facilitated [3H]MPP+ release induced by amphetamine, MPP+, or K+-induced depolarization specifically at hDAT but not at the human serotonin and the norepinephrine transporter (hNET). Mutation of the
Zn2+
coordinating residue His(193) to Lys (the corresponding residue in hNET) eliminated the effect of
Zn2+
on efflux. Conversely, the reciprocal mutation (K189H) conferred
Zn2+
sensitivity to hNET. The intracellular [3H]MPP+ concentration was varied to generate saturation isotherms; these showed that
Zn2+
increased V(max) for efflux (rather than K(M-Efflux-intracellular)). Thus, blockage of inward transport by
Zn2+
is not due to a simple inhibition of the transporter turnover rate. The observations provide evidence against the model of facilitated exchange-diffusion and support the concept that inward and outward transport represent discrete operational modes of the transporter. In addition, they indicate a physiological role of
Zn2+
, because
Zn2+
also facilitated transport reversal of
DAT
in rat striatal slices.
...
PMID:The role of zinc ions in reverse transport mediated by monoamine transporters. 1194 May 71
The biogenic amine transporters belong to the class of Na+/Cl--coupled solute carriers and include the transporters for dopamine (
DAT
), norepinephrine (NET), and serotonin (SERT). These transporters are the primary targets for the action of many psychoactive compounds including the most commonly used antidepressants as well as widely abused drugs such as cocaine and amphetamines. In spite of their pharmacological importance, still little is known about their higher structural organization and the molecular mechanisms underlying the substrate translocation process. In this review, it will be described how we have used
Zn2+
-binding sites as a tool to probe the structure and function of Na+/Cl--coupled biogenic amine transporters with specific focus on the human
DAT
(hDAT). The work has not only led to the definition of the first structural constrains in the tertiary structure of this class of transporters, but also allowed inferences about conformational changes accompanying substrate translocation and residues critical for regulating the equilibrium between different functional states in the transport cycle.
...
PMID:Probing dopamine transporter structure and function by Zn2+-site engineering. 1461 49
The dopamine (DA) transporter (
DAT
) mediates the removal of released DA.
DAT
is the major molecular target responsible for the rewarding properties and abuse potential of the psychostimulant amphetamine (AMPH). AMPH has been shown to reduce the number of DATs at the cell surface, and this AMPH-induced cell surface
DAT
redistribution may result in long-lasting changes in DA homeostasis. The molecular mechanism by which AMPH induces trafficking is not clear. Because AMPH is a substrate, we do not know whether extracellular AMPH stimulates trafficking through its interaction with
DAT
and subsequent alteration in
DAT
function, thereby triggering intracellular signaling or whether AMPH must be transported and then act intracellularly. In agreement with our previous studies, extracellular AMPH caused cytosolic redistribution of the wild-type human
DAT
(WT-hDAT). However, AMPH did not induce cytosolic redistribution in an uptake-impaired hDAT (Y335A-hDAT) that still binds AMPH. The divalent cation
zinc
(Zn(2+)) inhibits WT-hDAT activity, but it restores Y335A-hDAT uptake. Coadministration of Zn(2+) and AMPH consistently reduced WT-hDAT trafficking but stimulated cytosolic redistribution of Y335A-hDAT. Furthermore, direct intracellular application of AMPH, via a whole-cell patch pipette, stimulated the trafficking of Y335A-hDAT. Taken together, these data suggest that the
DAT
transport cycle is not required for AMPH-induced down-regulation and that an increase of intracellular AMPH is an essential component of
DAT
redistribution.
...
PMID:Regulation of dopamine transporter trafficking by intracellular amphetamine. 1668
