EC:2.3.1.107 - FACTA Search

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)

3-Iodo-6-methoxybenzamide (123I-IBZM), a new Dopamine D2 receptor ligand, was used in conjunction with SME 810 brain tomography to study six subjects (one normal volunteer, four schizophrenics and one DAT patient). Initial Dynamic SPET was followed by multislice SPET. High-resolution images of the D2 receptor distribution in the basal ganglia were obtained. The specific binding in D2 receptors of the basal ganglia is highest from 2-4 h p.i. Patients on anti-psychotic drugs showed significantly lower specific binding. Dopamine D2 brain receptor availability in man may now be studied with SPET. Continuous data acquisition with single slice tomography is particularly important in the study of this type of radiotracers.
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PMID:In vivo characterisation of 3-iodo-6-methoxybenzamide 123I in humans. 220 50

Drug abuse is a serious problem in the United States and in the world. Cocaine and amphetamines, widely used drugs of abuse, bind to dopamine (DA), serotonin, and norepinephrine transporters with high affinity and block their functions. It is believed that the dopamine transporter plays a key role in the mechanism of cocaine addiction. Because a good portion of our knowledge about drug addiction is derived from studying mouse as an animal model, it is essential to compare the properties of dopamine transporter from human and mouse. We report here the cloning of the mouse dopamine transporter (mDAT) cDNA and its expression and comparison with the human DAT. The 3.4 kilobase (kb) cDNA encodes a polypeptide that is 93.5% identical to the hDAT, with 619 amino acid residues and a calculated molecular weight of 68.8kDa. Dopamine transporters from mouse and human were stably expressed in the same parental MDCK cells and their properties were compared. The Michaelis-Menten constant Km values are 2.0 microM for mDAT and 2.4 microM for hDAT. Mouse and human DAT were also compared for drug inhibition profiles. Dopamine transporters from the two species have the same sensitivity to amphetamine (Kd: 0.75 microM) and bupropion (Kd: 1.5 microM). However, hDAT is more sensitive than mDAT to cocaine (Kd: 0.14 microM and 0. 29 microM respectively) and to ritalin (Kd: 0.038 microM and 0. 12 microM respectively). The cloning of mDAT cDNA provides an important tool for further study of the mechanism of drug addiction using mouse as an animal model.
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PMID:Molecular cloning of the mouse dopamine transporter and pharmacological comparison with the human homologue. 1037 32

The effects of ketamine, a noncompetitive antagonist of NMDA receptors, on the striatal dopaminergic system were evaluated multiparametrically in the monkey brain using high-resolution positron emission tomography (PET) in combination with microdialysis. L-[beta-(11)C]DOPA, [(11)C]raclopride, and [(11)C]beta-CFT were used to evaluate dopamine synthesis rate, D(2) receptor binding, and transporter availability, respectively, in conscious and ketamine-anesthetized animals. Dopamine concentrations in the striatal extracellular fluid (ECF) were simultaneously measured by PET. Thirty minutes prior to PET scan, intravenous administration of ketamine was started by continuous infusion at a rate of 3 or 10 mg/kg/h. Ketamine infusion dose-dependently decreased [(11)C]raclopride binding, but induced no significant changes in dopamine concentration in the striatal ECF as measured by microdialysis at any dose used. In contrast, ketamine increased both dopamine synthesis and DAT availability as measured by L-[beta-(11)C]DOPA and [(11)C]beta-CFT, respectively, in a dose-dependent manner. These results suggest that the inhibition of glutamatergic neuronal activity modulates dopamine turnover in the striatum by simultaneous enhancement of the dynamics of dopamine synthesis and DAT availability to the same extent, resulting in no apparent changes in ECF dopamine concentration as measured by microdialysis. It also suggests that the alteration of [(11)C]raclopride binding in vivo as measured by PET might not simply be modulated by the static synaptic concentration of dopamine.
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PMID:Ketamine decreased striatal [(11)C]raclopride binding with no alterations in static dopamine concentrations in the striatal extracellular fluid in the monkey brain: multiparametric PET studies combined with microdialysis analysis. 1088 Oct 30

Peroxynitrite (ONOO(-)) has been implicated as a causative factor in dopamine neuronal damage resulting from exposure to methamphetamine and 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP), and it may be involved in the etiology of Parkinson's Disease. ONOO(-) causes a concentration-dependent and irreversible reduction in dopamine uptake by EM4 cells stably expressing the human dopamine transporter (hDAT). The effect of ONOO(-) is manifested as a reduction in V(max). Cysteine, dithiothreitol, glutathione, and N-acetyl-cysteine, reagents that interact directly with ONOO(-), prevent this inhibition, whereas a scavenger of hydroxyl radical (dimethylsulfoxide), hydrogen peroxide (catalase), and superoxide (superoxide dismutase) did not. Dopamine in the extracellular medium protects the hDAT from ONOO(-), whereas intracellular dopamine does not. Parachloromercuribenzoic acid and 2-aminoethyl methanethiosulfonate (MTSEA), which share with ONOO(-) the ability to modify cysteine sulfhydryls, also inhibit hDAT function. ONOO(-) treatment lowers cysteine-specific labeling of the hDAT by MTSEA-biotin, suggesting that ONOO(-) reacts with one or more cysteines in hDAT. A mutant of hDAT (X7C) in which all intracellular and extracellular loop cysteines were mutated was resistant to inhibition by ONOO(-). Sensitivity to ONOO(-) was restored in mutants of hDAT in which reduced cysteines were present only in the first (C135) and third (C342) intracellular loops (CD-DAT), or in which C342 alone had been reintroduced into X7C (X7C-M342C). These results indicate that the hDAT is inhibited by ONOO(-) through oxidation of cysteine 342. Our studies also substantiate the possibility that drugs known to decrease DAT function in vivo (e.g., methamphetamine and MPTP) may exert their effects through ONOO(-)-mediated oxidative stress.
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PMID:Peroxynitrite inactivates the human dopamine transporter by modification of cysteine 342: potential mechanism of neurotoxicity in dopamine neurons. 1204 46

In the present study, age-related changes in the striatal dopaminergic system were examined in the living brains of conscious young (6.2 +/- 1.5 years old) and aged (20.2 +/- 2.6 years old) monkeys (Macaca mulatta) using positron emission tomography (PET). L-[beta-(11)C]DOPA and [(11)C]beta-CFT were applied to determine dopamine presynaptic functions such as synthesis rate and transporter (DAT) availability, respectively. Striatal dopamine D(1)- (D(1)R) and D(2)-like receptor (D(2)R) binding were measured with [(11)C]SCH23390 and [(11)C]raclopride, respectively. Although the markers of presynaptic terminals showed parallel age-related declines, the reduction of dopamine synthesis rate measured with L-[beta-(11)C]DOPA was slightly smaller than that of DAT determined with [(11)C]beta-CFT. The binding of [(11)C]raclopride to D(2)R in vivo was significantly reduced with aging, while that of [(11)C]SCH23390 to D(1)R showed no such marked age-related reduction. When the DAT inhibitor GBR12909 (0.5 and 5 mg/kg) was administered, DAT availability, dopamine synthesis, and D(2)R binding were significantly decreased in a dose-dependent manner in both age groups; however, the degrees of the decreases in these parameters were significantly higher in young rather than in aged animals. Dopamine concentration in the striatal extracellular fluid (ECF), as measured by microdialysis, was increased by administration of GBR12909 in a dose-dependent manner and the degree of the increase in dopamine level decreased with age. These results demonstrate that age-related changes of dopamine neuronal functions were not limited to the resting condition but were also seen in the functional responses to the neurotransmitter modulation.
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PMID:Age-related changes in the striatal dopaminergic system in the living brain: a multiparametric PET study in conscious monkeys. 1211 12

Dopamine genes are candidate genes for dyslexia in the light of the well-known comorbidity between dyslexia and ADHD. Within-family association and linkage disequilibrium were tested between four genetic markers at DRD4, DRD3, DRD2, and DAT loci, and dyslexia, in a sample of 130 Italian dyslexic children, 16.9% of whom had comorbid ADHD. No evidence of either association or linkage disequilibrium was found, neither in the total sample nor in the comorbid subgroup. Negative results do not support a common genetic basis between these two disorders for these markers.
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PMID:No evidence for association and linkage disequilibrium between dyslexia and markers of four dopamine-related genes. 1450 70

Dopamine (DA) plays roles in circuits that are important for brain reward and in striatal brain regions that are important for certain types of habit learning. These processes in wildtype, heterozygous, and homozygous dopamine transporter knockout (DAT-KO) mice, which were mildly food deprived and allowed to make nose-poke responses for food reinforcement, were studied. The mice were given 20-min sessions of daily (a) baseline exposure to the operant chambers, (b) acquisition of nose-poke responses in which responses were reinforced under a fixed ratio (FR5) schedule, (c) a progressive ratio schedule in which the number of responses required to obtain food was gradually increased, and (d) extinction of responses in which nose pokes were not followed by food. Neither heterozygous nor homozygous DAT-KO mice differed from their wildtype litter mates in the number of nose pokes displayed during baseline exposures to the chambers, the number of sessions required for acquisition, the number of responses under the FR5 schedule, or the number of responses under the progressive ratio schedule. Interestingly, however, in the five extinction sessions in which food was no longer delivered by nose poking, homozygous DAT-KO mice exerted significantly more responses than mice of either of the other two genotypes. These lines of evidence suggest a greater resistance of DAT-KO mice to the elimination of the response and support roles of dopaminergic systems in habit memory.
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PMID:Food-reinforced operant behavior in dopamine transporter knockout mice: enhanced resistance to extinction. 1554 11

Cocaine, methylphenidate and other drugs that block dopamine transport indirectly promote immediate early gene expression, via dopamine-mediated activation of D1 dopamine receptors. Increased expression of the immediate early gene (IEG) c-fos, initiates a cascade of intracellular events that may underlie neuroadaptive changes following repeated exposure to the drugs. We investigated whether substrates (dopamine, norepinephrine) of the human dopamine (hDAT) and norepinephrine (hNET) transporters can directly induce c-Fos protein in HEK-293 (HEK) cells transfected with the hDAT and hNET and whether PKC modulators affect this process. Dopamine and norepinephrine robustly induced c-Fos immunofluorescence in both hDAT and hNET cells, but not in untransfected HEK-293 cells, demonstrating that catecholamine-induced c-Fos induction was DAT- and NET-dependent. The PKC activator PMA induced c-Fos in hDAT, hNET and HEK cell lines indicating that PKC stimulated c-Fos independent of transporters. The PKC inhibitor bisindolylmaleimide I (BIS) significantly increased c-Fos expression in hDAT cells, but not in hNET or HEK-293 cells, suggesting that inhibition of DAT-mediated phosphorylation results in c-Fos induction. BIS pretreatment abolished norepinephrine-induced c-Fos expression hNET but not dopamine-induced c-Fos induction in hDAT cells. In conclusion, induction of c-Fos by dopamine and norepinephrine requires the presence of hDAT and hNET but the contributions of hDAT and hNET to c-Fos induction is distinguishable on the basis of differing responses to a PKC inhibitor. These findings present a cell system and methodology for investigating the potential contribution of monoamine transporters to pre-synaptic neuroadaptation.
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PMID:Dopamine and norepinephrine transporter-dependent c-Fos production in vitro: relevance to neuroadaptation. 1576 38

Dopamine has been critically implicated in learning and motivation, although its precise role remains to be determined. In order to investigate the involvement of dopamine in learning and motivation for a food reward, we used dopamine transporter knockdown mice (DAT KD) that have chronically elevated levels of extracellular dopamine. The present study demonstrates that chronically elevated dopamine enhances tendency to work for a food reward without apparent effects on Pavlovian and operant learning for this reward. The increase in dopamine is associated with elevated levels of dynorphin and Fos B expression in the dorsal caudate-putamen and the core but not the shell subregion of the nucleus accumbens. These data suggest that motivation to work, but not learning, for a food reward appears to be under the critical influence of tonic dopaminergic activity in discrete brain areas relevant for a reward-directed behavior.
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PMID:Mice with chronically elevated dopamine exhibit enhanced motivation, but not learning, for a food reward. 1631 13

Dopamine, serotonin, and norepinephrine are essential for neurotransmission in the mammalian system. These three neurotransmitters have been the focus of considerable research because the modulation of their production and their interaction at monoamine receptors has profound effects upon a multitude of pharmacological outcomes. Our interest has focused on neurotransmitter reuptake mechanisms in a search for medications for cocaine abuse. Herein we describe the synthesis and biological evaluation of an array of 2-aminopentanophenones. This array has yielded selective inhibitors of the dopamine and norepinephrine transporters with little effect upon serotonin trafficking. A subset of compounds had no significant affinity at 5HT1A, 5HT1B, 5HT1C, D1, D2, or D3 receptors. The lead compound, racemic 1-(4-methylphenyl)-2-pyrrolidin-1-yl-pentan-1-one 4a, was resolved into its enantiomers and the S isomer was found to be the most biologically active enantiomer. Among the most potent of these DAT/NET selective compounds are the 1-(3,4-dichlorophenyl)- (4u) and the 1-naphthyl- (4t) 2-pyrrolidin-1-yl-pentan-1-one analogues.
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PMID:1-(4-Methylphenyl)-2-pyrrolidin-1-yl-pentan-1-one (Pyrovalerone) analogues: a promising class of monoamine uptake inhibitors. 1648 Feb 78

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