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)

(3S,4R)-4-(4-Fluorophenyl)-3-[[3,4-(methylenedioxy)phenoxy]methyl] piperidine [(3S,9R)-3, paroxetine] is a selective serotonin reuptake inhibitor (SSRI) used as an antidepressant in humans. In previous studies, we reported that certain (1R)-3 beta-(substituted phenyl)nortropane-2 beta-carboxylic acid methyl esters (2a) exhibited high affinity and reasonable selectivity for the serotonin transporter (5-HTT). The major structural differences between 2a and (3S,4R)-3 are that 2a possesses a different absolute stereochemistry and has an ethylene bridge not present in 3. In addition, 2a possesses a carbomethoxy substituent adjacent to the aryl ring, whereas (3S,4R)-3 contains a [3,4-(methylenedioxy)phenoxy]methyl group. In this study, we present the synthesis and biological evaluations of six of the possible eight isomers of 3-(4-fluorophenyl)-2-[[3,4-(methylenedioxy)phenoxy]methyl]nortropane+ ++ (4). The data for inhibition of [3H]paroxetine binding show that (1R)-2 beta, 3 alpha-4c, which has the same stereochemistry as paroxetine, has the highest affinity at the 5-HTT. Strikingly, the most potent compounds for inhibition of [3H]WIN-35,428 binding were not the (1R)-2 beta, 3 beta-isomers but rather (1R)-2 beta, 3 alpha-4c and (1S)-2 beta, 3 alpha-4f. Conformational analyses show that these isomers exist in a flattened boat conformation with pseudoequatorial substituents. Thus, the binding data show that this conformation is recognized by the DAT-associated binding site and also suggest that this conformation of paroxetine is recognized by the 5-HTT-associated binding site.
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PMID:Synthesis and ligand binding of tropane ring analogues of paroxetine. 945 47

The monoamines, serotonin, dopamine, norepinephrine, epinephrine and histamine, play a critical role in the function of the hypothalamic-pituitary-adrenal axis and in the integration of information in sensory, limbic, and motor systems. The primary mechanism for termination of monoaminergic neurotransmission is through reuptake of released neurotransmitter by Na+, CI-dependent plasma membrane transporters. A second family of transporters packages monoamines into synaptic and secretory vesicles by exchange of protons. Identification of those cells which express these two families of neurotransmitter transporters is an initial step in understanding what adaptive strategies cells expressing monoamine transporters use to establish the appropriate level of transport activity and thus attain the appropriate efficiency of monoamine storage and clearance. The most recent advances in this field have yielded several surprises about their function, cellular and subcellular localization, and regulation, suggesting that these molecules are not static and most likely are the most important determinants of extracellular levels of monoamines. Here, information on the localization of mRNAs for these transporters in rodent and human brain is summarized along with immunohistochemical information at the light and electron microscopic levels. Regulation of transporters at the mRNA level by manipulation in rodents and differences in transporter site densities by tomographic techniques as an index of regulation in human disease and addictive states are also reviewed. These studies have highlighted the presence of monoamine neurotransmitter transporters in neurons but not in glia in situ. The norepinephrine transporter is present in all cells which are both tyrosine hydroxylase (TH)- and dopamine beta-hydroxylase-positive but not in those cells which are TH- and phenyl-N-methyltransferase-positive, suggesting that epinephrine cells may have their own, unique transporter. In most dopaminergic cells, dopamine transporter mRNA completely overlaps with TH mRNA-positive neurons. However, there are areas in which there is a lack of one to one correspondence. The serotonin transporter (5-HTT) mRNA is found in all raphe nuclei and in the hypothalamic dorsomedial nucleus where the 5-HTT mRNA is dramatically reduced following immobilization stress. The vesicular monoamine transporter 2 (VMAT2) is present in all monoaminergic neurons including epinephrine- and histamine-synthesizing cells. Immunohistochemistry demonstrates that the plasma membrane transporters are present along axons, soma, and dendrites. Subcellular localization of DAT by electron microscopy suggests that these transporters are not at the synaptic density but are confined to perisynaptic areas, implying that dopamine diffuses away from the synapse and that contribution of diffusion to dopamine signalling may vary between brain regions. Interestingly, the presence of VMAT2 in vesicles underlying dendrites, axons, and soma suggests that monoamines may be released at these cellular domains. An understanding of the regulation of transporter function may have important therapeutic consequences for neuroendocrine function in stress and psychiatric disorders.
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PMID:Localization and dynamic regulation of biogenic amine transporters in the mammalian central nervous system. 966 36

We investigated the gene expression of three monoamine transporters (norepinephrine transporter, NET; serotonin transporter, SERT; and dopamine transporter, DAT) in the rat superior cervical ganglion (SCG). Most of principal ganglion neurons abundantly expressed NET mRNA. In addition, about 30% of principal ganglion neurons also expressed SERT mRNA. However, DAT mRNA expression was not observed there. These results suggest that serotonin as well as norepinephrine works as a neurotransmitter in a subset of principal ganglion neurons.
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PMID:Expression of norepinephrine and serotonin transporter mRNAs in the rat superior cervical ganglion. 1010 Dec 35

Association analysis of candidate genes may represent a strategy for clarifying the genetic components involved in bipolar disorder. Polymorphism at dopamine receptor genes DRD2, DRD4, and dopamine and serotonin transporter genes (DAT, SERT) has been used in previous association studies. Some authors have reported positive association between certain alleles and bipolar disorder, using the case-control design. In this family-based association study of DRD2, DRD4, DAT, and SERT, the distribution of parental nontransmitted alleles was compared with that of alleles transmitted to 53 Sardinian probands suffering from bipolar disorder. The transmission disequilibrium test (TDT) was used to detect any disproportionate transmission of alleles by heterozygous parents to affected children. No differences were found between the allele distribution of polymorphisms at DRD2, DRD4, DAT, and SERT in probands and parental nontransmitted chromosomes. TDT did not reveal any difference between transmitted and nontransmitted alleles. Our results do not support the hypothesis of a role for DRD2, DRD4, DAT, or SERT in bipolar disorder. Previously reported positive associations between DRD2 or SERT and bipolar disorder were conceivably due to stratification dependent on the case-control design, even though our sample might have failed to detect small associations due to limited power.
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PMID:Family-based association study between bipolar disorder and DRD2, DRD4, DAT, and SERT in Sardinia. 1049 Jul 10

The plasmalemmal dopamine (DA) transporter (DAT) is a principal site of action for cocaine. This report presents the novel finding that in addition to inhibiting DAT function, cocaine administration rapidly alters vesicular DA transport. Specifically, cocaine treatment abruptly and reversibly increased both the V(max) of DA uptake and the B(max) of vesicular monoamine transporter-2 (VMAT-2) ligand (dihydrotetrabenazine) binding, as assessed ex vivo in purified rat striatal synaptic vesicles. Selective inhibitors of the DAT (amfonelic acid and GBR12935), but not the plasmalemmal serotonin transporter (fluoxetine), also increased vesicular DA uptake. Moreover, DA depletion resulting from administration of the tyrosine hydroxylase inhibitor alpha-methyl-p-tyrosine had cocaine-like effects. Conversely, administration of the DA-releasing agent methamphetamine rapidly decreased vesicular uptake. Taken together, these data demonstrate for the first time ex vivo that cocaine treatment rapidly alters vesicular monoamine transport, and suggest that alterations in cytoplasmic DA concentrations contribute to stimulant-induced changes in vesicular DA uptake. Hence, the VMAT-2 may be an important target for developing strategies to treat not only cocaine addiction but also other disorders involving alterations in neuronal DA disposition, including Parkinson's disease.
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PMID:Regulation of the vesicular monoamine transporter-2: a novel mechanism for cocaine and other psychostimulants. 1118 4

We used RT-PCR to clone monoamine transporters from Macaca mulatta, Macaca fasicularis and Saimiri sciureus (dopamine transporter; DAT) and Macaca mulatta (norepinephrine transporter; NET and serotonin transporter; SERT). Monkey DAT, NET and SERT proteins were >98% homologous to human and, when expressed in HEK-293 cells, displayed drug affinities and uptake kinetics that were highly correlated with monkey brain or human monoamine transporters. In contrast to reports of other species, we discovered double (leucine for phenylalanine 143 and arginine for glutamine 509; Variant I) and single (proline for leucine 355; Variant II) amino acid variants of DAT. Variant I displayed dopamine transport kinetics and binding affinities for various DAT blockers (including cocaine) versus [3H] CFT (WIN 35, 428) that were identical to wild-type DAT (n=7 drugs; r(2)=0.991). However, we detected a six-fold difference in the affinity of cocaine versus [3H] cocaine between Variant I (IC(50): 488+/-102 nM, SEM, n=3) and wild-type DAT (IC(50): 79+/-8.2 nM, n=3, P<0.05). Variant II was localized intracellularly in HEK-293 cells, as detected by confocal microscopy, and had very low levels of binding and dopamine transport. Also discovered was a novel exon 5 splice variant of NET that displayed very low levels of transport and did not bind cocaine. With NetPhos analysis, we detected a number of highly conserved putative phosphorylation sites on extracellular as well as intracellular loops of the DAT, NET, and SERT, which may be functional for internalized transporters. The homology and functional similarity of human and monkey monoamine transporters further support the value of primates in investigating the role of monoamine transporters in substance abuse mechanisms, neuropsychiatric disorders and development of diagnostic and therapeutic agents.
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PMID:Cloning of dopamine, norepinephrine and serotonin transporters from monkey brain: relevance to cocaine sensitivity. 1122 67

A large number of polymorphisms in genes coding for neurotransmitter receptors and transporters have been associated with neuropsychiatric conditions, although few of these associations have been consistently replicated. These proteins are critical targets of psychoactive drugs and the clarification of the functional significance of these polymorphisms might offer important leads for drug development and therapeutic applications. Brain imaging techniques such as single photon emission computed tomography (SPECT) and positron emission tomography (PET) provide the means to monitor the expression and function of many of these proteins in the living human brain. This paper reviews brain imaging studies designed to evaluate the significance of polymorphisms in genes coding for important drug targets (e.g., the serotonin transporter [SERT], the dopamine transporter [DAT] and the dopamine D(2) receptor) in terms of expression or function. These studies illustrate the unique opportunities, as well as the pitfalls, generated by combining genetic analysis with brain imaging studies.
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PMID:Imaging neurochemical endophenotypes: promises and pitfalls. 1153 11

Intracerebroventricular (icv) administration of betacytotoxics alters brain monoamine neurotransmission, without producing hyperglycemia. By means of in situ hybridization, we have investigated the expression of dopamine, noradrenaline and serotonin transporter (DAT, NAT, 5-HTT, respectively) mRNAs, in the brain of alloxan- and streptozotcin-icv treated rats. DAT1 mRNA expression is increased in 1-week alloxan-icv treated rats in arcuate nucleus (+51%) and ventral medial bundle /VMB/ (+32%), and decrease in VMB of 4-week alloxan- (-53%) and streptozotocin- (-9%) icv treated rats, respectively. NAT1 mRNA expression in locus coeruleus is decreased in 4-week alloxan-icv treated rats (-35%) and increased in A1 cell group of 1- (+19%) and 4- (+14%) week streptozotocin-icv treated rats. 5-HTT mRNA expression in dorsal raphe nucleus is increased in 1- (+13%) and 4- (+21%) week alloxan-icv treated rats. Observed changes may suggest altered response to antidepressants in streptozotocin-icv treated rats, used as an animal model of sporadic Alzheimer's disease.
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PMID:Intracerebroventricular administration of betacytotoxics alters expression of brain monoamine transporter genes. 1254 Oct 10

Both dopamine uptake inhibitors and sigma(1) receptor antagonists have been implicated as potential pharmacotherapeutics for the treatment of cocaine abuse. While the dopamine uptake inhibitors may share with cocaine neurochemical mechanisms underlying reinforcing properties, sigma(1) antagonists have been shown to attenuate some behavioral actions and toxic side effects associated with cocaine overdose. Rimcazole, a sigma(1) receptor antagonist that binds to the DAT (K(i) = 224 nM), is not behaviorally cocaine-like and attenuates some of the behavioral actions of cocaine. To determine the roles of both DAT and sigma(1) receptors in the behavioral actions of rimcazole, a series of analogues was synthesized. Initial studies identified two analogues (1 and 4) that showed high to moderate affinities for both DAT and sigma(1) receptors and failed to show cocaine-like discriminative stimulus (DS) effects. A second series of bis(4'-fluorophenyl)amine analogues have now been prepared in which the most potent DAT compound, 19 (K(i) = 8.5 nM), was selective over serotonin transporter (SERT/DAT = 94), norepinephrine transporter (NET/DAT = 63), and sigma(1) receptor binding (sigma(1)/DAT = 44). In addition, two other analogues 10 and 17 showed superior selectivity for DAT over SERT (170- and 140-fold, respectively) and DAT over NET (219- and 190-fold, respectively) but were essentially equipotent at DAT and sigma(1) receptors (10; K(i) = 77 and 124 nM, respectively, 17; K(i) = 28 and 13 nM, respectively). CoMFA studies at both DAT and sigma(1) receptors were performed to examine structural requirements for optimal binding at these two targets as well as to assess differences between them. Behavioral evaluation of analogues with varying affinities for both DAT and sigma(1) receptors may provide a novel approach toward designing medications for cocaine abuse.
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PMID:Dual probes for the dopamine transporter and sigma1 receptors: novel piperazinyl alkyl-bis(4'-fluorophenyl)amine analogues as potential cocaine-abuse therapeutic agents. 1280 Dec 23

Current evidence indicates that virtually all neuropsychiatric disorders, like many other common medical disorders, are genetically complex, with combined influences from multiple interacting genes, as well as from the environment. However, additive or epistatic gene interactions have proved quite difficult to detect and evaluate in human studies. Mouse phenotypes, including behaviors and drug responses, can provide relevant models for human disorders. Studies of gene-gene interactions in mice could thus help efforts to understand the molecular genetic bases of complex human disorders. The serotonin transporter (SERT, 5-HTT, SLC6A4) provides a relevant model for studying such interactions for several reasons: human variants in SERT have been associated with several neuropsychiatric and other medical disorders and quantitative traits; SERT blockers are effective treatments for a number of neuropsychiatric disorders; there is a good initial understanding of the phenotypic features of heterozygous and homozygous SERT knockout mice; and there is an expanding understanding of the interactions between variations in SERT expression and variations in the expression of a number of other genes of interest for neuropsychiatry and neuropharmacology. This paper provides examples of experimentally-obtained interactions between quantitative variations in SERT gene expression and variations in the expression of five other mouse genes: DAT, NET, MAOA, 5-HT(1B) and BDNF. In humans, all six of these genes possess polymorphisms that have been independently investigated as candidates for neuropsychiatric and other disorders in a total of > 500 reports. In the experimental studies in mice reviewed here, gene-gene interactions resulted in either synergistic, antagonistic (including 'rescue' or 'complementation') or more complex, quantitative alterations. These were identified in comparisons of the behavioral, physiological and neurochemical phenotypes of wildtype mice vs. mice with single allele or single gene targeted disruptions and mice with partial or complete disruptions of multiple genes. Several of the descriptive phenotypes could be best understood on the basis of intermediate, quantitative alterations such as brain serotonin differences. We discuss the ways in which these interactions could provide models for studies of gene-gene interactions in complex human neuropsychiatric and other disorders to which SERT may contribute, including developmental disorders, obesity, polysubstance abuse and others.
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PMID:Experimental gene interaction studies with SERT mutant mice as models for human polygenic and epistatic traits and disorders. 1465 7


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