Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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.
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PMID:Mechanism of the dopamine-releasing actions of amphetamine and cocaine: plasmalemmal dopamine transporter versus vesicular monoamine transporter. 787 46

We have constructed stable cell lines expressing transporters for dopamine (DA), norepinephrine (NE), and serotonin (5-HT) by transfection with cloned cDNAs. The parental LLC-PK1 cell does not express any of these neurotransmitter transporters. Therefore, monoamine transport activities in each of these cell lines are due to the transfected DNA only, allowing comparison in the same background. Drug inhibition profiles for each cell line are distinct and as expected for each transporter. LLC-NET and LLC-DAT cells transported both NE and DA and both cell types exhibited a lower KM for DA transport than for NE transport. Analysis of Vmax data for LLC-NET cells suggests that substrate is bound to the NE transporter during the rate-limiting step(s) in transport. The cocaine analog 2-beta-carbomethoxy-3 beta-(4-[125I]iodophenyl)tropane binds to each cell type, and is displaced by transport substrate in each case. Binding and transport measurements on parallel cell cultures allowed estimation of turnover numbers for norepinephrine, dopamine, and serotonin transporters. All three transporters require external Na+ and Cl-. The Na+ concentration dependence suggests that a single Na+ ion is involved in transport catalyzed by norepinephrine and serotonin transporters while more than one Na+ ion participate in transport mediated by the dopamine transporter.
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PMID:Stable expression of biogenic amine transporters reveals differences in inhibitor sensitivity, kinetics, and ion dependence. 812 21

We have synthesized several derivative of dl-threo-methylphenidate (Ritalin) bearing substituents on the phenyl ring. IC50 values for binding these compounds to rat brain monoamine transporters were assessed using [3H]WIN 35,428 (striatal membranes, dopamine transporters, DAT), [3H]nisoxetine (frontal cortex membranes, norepinephrine transporters, NET) and [3H]paroxetine (brain stem membranes, 5HT transporters, 5HTT). Affinities (1/Ki) decreased in the order: DAT > NET >> 5HTT. Substitution at the para position of dl-threo-methylphenidate generally led to retained or increased affinity for the dopamine transporter (bromo > iodo > methoxy > hydroxy). Substitution at the meta position also increased affinity for the DAT (m-bromo > methylphenidate; m-iodo-p-hydroxy > p-hydroxy). Substitution at the ortho position with bromine considerably decreased affinity. Similar IC50 values for binding of o-bromomethylphenidate to the dopamine transporter were measured at 0, 22 and 37 degrees. N-Methylation of the piperidine ring of methylphenidate also considerably reduced affinity. The dl-erythro isomer of o-bromomethylphenidate did not bind to the DAT (IC50 > 50,000 nM). Affinities at the dopamine and norepinephrine transporters for substituted methylphenidate derivatives were well correlated (r2=0.90). Abilities of several methylphenidate derivatives to inhibit [3H]dopamine uptake in striatal synaptosomes corresponded well with inhibition of [3H]WIN 35, 428 binding. None of the compounds examined exhibited significant affinity to dopamine D1 or D2 receptors (IC50 > 500 or 5,000 nM, respectively), as assessed by inhibition of binding of [3H]SCH 23390 or [123I]epidepride, respectively, to striatal membranes.
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PMID:Affinities of methylphenidate derivatives for dopamine, norepinephrine and serotonin transporters. 878 5

In an extension of our previous work, an antibody directed against a peptide from the N-terminal region of DAT was used to localize specific dopamine transporter immunoreactivity (DAT-IR) in several regions of rat brain. Apparent axons and varicosities were found in the zona incerta, external layer of the median eminence, various nuclei of the amygdala, the cortex-amygdala transition zone, and in periglomerular regions in the olfactory bulb. Apparent stained neuronal perikarya and dendrites were observed in the arcuate nucleus and olfactory bulb. These regions are known to have dopaminergic neurons and innervations, although there was not a perfect correspondence between DAT-IR and the known distribution of dopaminergic neurons. A possible explanation is that different dopamine containing cell groups express different levels of DAT mRNA and protein, as we have previously shown. Also in the tuberoinfundibular neurons, for example, DAT-IR was preferentially localized to distal axons in the median eminence, suggesting intracellular compartmentation.
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PMID:Dopamine transporter immunohistochemistry in median eminence, amygdala, and other areas of the rat brain. 878 32

The dopamine transporter, the molecule responsible for presynaptic reuptake of dopamine and a major site of action of psychostimulant drugs, including cocaine, is encoded by locus SLC6A3 (alias DAT1). The protein's actions and DAT's specific localization to dopaminergic neurons make it a candidate gene for several psychiatric illnesses. Alleles at this locus have been reported to be associated with cocaine-induced paranoia and attention deficit disorder. SLC6A3 has been mapped to distal chromosome 5p, using physical methods. Our goal was to place SLC6A3 in the genetic linkage map and to test for linkage to Tourette syndrome. Genetic linkage methods were used to place SLC6A3 in the genetic linkage map. Four extended pedigrees (one of which overlaps with CEPH) were typed. Linkage with Tourette syndrome (TS) was also examined. SLC6A3 showed close linkage with several markers previously mapped to distal chromosome 5p, including D5S11 (Zmax = 16.0, theta M = theta F = 0.03, results from four families) and D5S678 (Zmax = 7.84, theta M = theta F = 0, results from two families). Observed crossovers established that SLC6A3 is a distal marker close to D5S10 and D5S678, but these three distal markers could not be ordered. Linkage between TS and SLC6A3 could be excluded independently in two branches of a large kindred segregating TS; the lod score in a third family was also negative, but not significant. Cumulative results show a lod score of -6.2 at theta = 0 and of -3.9 at theta = 0.05 (dominant model, narrow disease definition). SLC6A3 thus maps to distal chromosome 5p by linkage analysis, in agreement with previous physical mapping data. A mutation at SLC6A3 is not causative for TS in the two large families that generated significant negative lod scores (if the parameters of our analyses were correct) and is unlikely to be causative in the family that generated a negative lod score that did not reach significance. These results do not exclude a role for the dopamine transporter in influencing risk for TS in combination with other loci.
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PMID:The dopamine transporter protein gene (SLC6A3): primary linkage mapping and linkage studies in Tourette syndrome. 882 31

Translocation of [3H]dopamine and binding of [3H]WIN 35,428 were measured in intact C6 glioma cells expressing the cloned human dopamine transporter (hDAT) under identical conditions of assay buffer (phosphate-Krebs) and temperature (25 degrees C) with uptake at initial velocity and binding at equilibrium. In the intact cells, [3H]dopamine uptake was a one-component process; in contrast, [3H]WIN 35,428 binding included both a high-affinity component, inhibitable by micromolar concentrations of dopamine, and a low-affinity component only partially inhibited by millimolar concentrations of dopamine. Binding (high-affinity) over uptake Ki ratios were on the average 2.3 for the inhibitors WIN 35,428, cocaine, GBR 12909, and BTCP. The potency of dopamine in inhibiting its own translocation was close to that in inhibiting [3H]WIN 35,428 binding consonant with a more rapid reorientation step of the DAT in the C6-hDAT system than in rat striatal synaptosomes. The similarity in turnover values of the DAT estimated in the current experiments with the C6-hDAT system and in our previous study on rat striatal synaptosomes, performed under comparable conditions, suggest that all DAT's inserted into the C6 cell membrane are functionally active.
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PMID:Translocation of dopamine and binding of WIN 35,428 measured under identical conditions in cells expressing the cloned human dopamine transporter. 887 59

We have previously reported that chronic elevation of insulin in the CNS of rats results in opposing changes of the mRNA expression for the norepinephrine transporter (NET; decreased) and the dopamine transporter (DAT; increased). In the present study we tested the hypothesis that a chronic depletion of insulin would result in opposite changes of NET and DAT mRNA expression, from those observed with chronic elevation of insulin. Rats were treated with streptozotocin to produce hypoinsulinemic diabetes. One week later, steady state levels of mRNA were measured by in situ hybridization for NET in the locus coeruleus (LC) and for DAT in the ventral tegmental area/substantia nigra compacta (VTA/SNc). The mRNA for tyrosine hydroxylase (TH), the rate-limiting enzyme for NE and DA synthesis, was measured in these same brain regions. In the diabetic animals, NET mRNA was significantly elevated (159 +/- 22% of average control level) while DAT mRNA was non-significantly decreased (78 +/- 9% of average control level). Additionally, TH mRNA was significantly altered in both the LC (131 +/- 11% of average control level) and VTA/SNc (79 +/- 5% of average control level). We conclude that endogenous insulin is one physiological regulator of the synthesis and re-uptake of NE and DA in the CNS.
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PMID:Diabetes causes differential changes in CNS noradrenergic and dopaminergic neurons in the rat: a molecular study. 893 Mar 8

Electrophysiological and pharmacological studies of a cloned human dopamine transporter (hDAT) were undertaken to investigate the mechanisms of transporter function and the actions of drugs at this target. Using two-electrode voltage-clamp techniques with hDAT-expressing Xenopus laevis oocytes, we show that hDAT can be considered electrogenic by two criteria. (1) Uptake of hDAT substrates gives rise to a pharmacologically appropriate "transport-associated" current. (2) The velocity of DA uptake measured in oocytes clamped at various membrane potentials was voltage-dependent, increasing with hyperpolarization. Concurrent measurement of transport-associated current and substrate flux in individual oocytes revealed that charge movement during substrate translocation was greater than would be expected for a transport mechanism with fixed stoichiometry of 2 Na+ and 1 Cl- per DA+ molecule. In addition to the transport-associated current, hDAT also mediates a constitutive leak current, the voltage and ionic dependencies of which differ markedly from those of the transport-associated current. Ion substitution experiments suggest that alkali cations and protons are carried by the hDAT leak conductance. In contrast to the transport-associated functions, the leak does not require Na+ or Cl-, and DAT ligands readily interact with the transporter even in the absence of these ions. The currents that hDAT mediates provide a functional assay that readily distinguishes the modes of action of amphetamine-like "DA-releasing" drugs from cocaine-like translocation blockers. In addition, the voltage dependence of DA uptake suggests a mechanism through which presynaptic DA autoreceptor activation may accelerate the termination of dopaminergic neurotransmission in vivo.
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PMID:Multiple ionic conductances of the human dopamine transporter: the actions of dopamine and psychostimulants. 899 51

We assessed the abundance of dopamine transporter messenger RNA (DAT mRNA) in various human midbrain dopamine cell groups using in situ hybridization. The youngest individuals studied (17-23 years of age) exhibited significant regional heterogeneity of DAT expression, both in terms of the number of dopamine neurons expressing DAT mRNA and the abundance of DAT mRNA per cell, with the highest levels of expression evident within the ventral tier of the substantia nigra and lowest expression within the retrorubral field. In the older subjects (65-72 years old) analyzed, DAT mRNA in all regions was reduced to the level seen in the retrorubal field, indicating a positive correlation between initial levels of DAT expression and subsequent age-related reductions, with some regions exhibiting up to a 75% loss of DAT mRNA with age. The age-related decline in DAT mRNA was due to both a decrease in the abundance of DAT mRNA per dopamine cell as well as a decrease in the total number of dopamine cells expressing DAT mRNA, although tyrosine hydroxylase expression was less affected. These results indicate that changes in dopamine neurotransmission seen in normal aging may be related to altered DAT gene expression.
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PMID:Age-related and regional differences in dopamine transporter mRNA expression in human midbrain. 910 86

Two novel series of iodinated N-substituted analogs of 2beta-carbomethoxy-3beta-(4'-iodophenyl)tropane (beta-CIT) and N-(3-iodoprop-(2E)-enyl)-2beta-carbomethoxy-3beta-(3',4'-dis ubstituted phenyl)nortropane were synthesized. They were evaluated for their inhibitory properties on dopamine (DA(T)), serotonin (5-HT(T)), and norepinephrine (NE(T)) transporters in rat brain homogenates using [3H]GBR-12935, [3H]paroxetine, and [3H]nisoxetine as specific ligands. All new N-substituted analogs of beta-CIT exhibited higher DAT selectivity over both 5-HT(T) and NE(T) than beta-CIT. Moreover compounds with the N-substituents propynyl (6), crotyl (4), 2-bromoprop-(2E)-enyl (5), and 3-iodoprop-(2E)-enyl (3d) showed similar to higher DA(T) affinities than beta-CIT (respectively 14, 15, 30, and 30 nM vs 27 nM). Compound 3d was found to be the most selective DA(T) agent of this series (5-HTT/DA(T) = 32.0 vs 0.1 for beta-CIT). The N-(3-iodoprop-(2E)-enyl) chain linked to the tropane nitrogen was therefore maintained on the tropane structure, and phenyl substitution was carried out in order to improve DA(T) affinity. K(i) values of N-(3-iodoprop-(2E)-enyl)-2beta-carbomethoxy-3beta-(3',4'-dis ubstituted phenyl)nortropanes revealed that phenyl, 4'-isopropyl, and 4'-n-propyl derivatives weakly inhibited specific binding to DA(T), whereas phenyl substitution with 4'-methyl (3c), 3',4'-dichloro (3b), and 4'-iodo (3d) yielded high-DA(T) reuptake agents with increased DA(T) selectivity compared to beta-CIT. These results demonstrate that the combination of a nitrogen and a phenyl substitution yields compounds with high affinity and selectivity for the dopamine transporter which are usable as SPECT markers for DA neurons.
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PMID:Synthesis and ligand binding of nortropane derivatives: N-substituted 2beta-carbomethoxy-3beta-(4'-iodophenyl)nortropane and N-(3-iodoprop-(2E)-enyl)-2beta-carbomethoxy-3beta-(3',4'-disubstituted phenyl)nortropane. New high-affinity and selective compounds for the dopamine transporter. 913 33


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