EC:2.7.10.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.10.1 (ERK)
95,504 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cocaine- and antidepressant-sensitive norepinephrine and serotonin transporters (NETs and SERTs) are closely related members of the Na+/Cl- transporter gene family, whose other members include transporters for inhibitory amino acid transmitters, neuromodulators, osmolytes and nutrients. Availability of cloned NET and SERT cDNAs has permitted rapid progress in the definition of cellular sites of gene expression, the generation of transporter-specific antibodies suitable for biosynthetic and localization studies, the examination of structure-function relationships in heterologous expression systems and a biophysical analysis of transporter function. In situ hybridization and immunocytochemical studies indicate a primary expression of NET and SERT genes in brain by noradrenergic and serotonergic neurons, respectively. Both NET and SERT are synthesized as glycoproteins, with multiple glycosylation states apparent for SERT proteins in the brain and periphery. N-glycosylation of NET and SERT appears to be essential for transporter assembly and surface expression, but not for antagonist binding affinity. Homology cloning efforts have revealed novel NET and SERT homologs in nonmammalian species that are of potential value in the delineation of the precise sites for substrate and antagonist recognition, including a Drosophila melanogaster SERT with NET-like pharmacology. Electrophysiological recording of human NETs and SERTs stably expressed in HEK-293 cells reveals that both transporters move charge across the plasma membrane following the addition of substrates; these currents can be blocked by NET-and SERT-selective antagonists as well as by cocaine.
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PMID:Molecular physiology of norepinephrine and serotonin transporters. 782 27

We prepared membrane vesicles from stable LLC-PK1 cells expressing serotonin (5-HT) gamma-aminobutyric acid (GABA) and norepinephrine (NE) transporters (SERT, GAT-1, and NET). These vesicles accumulate transport substrates when the appropriate transmembrane ion gradients are imposed. For NET, accumulation of [3H]dopamine (DA) was stimulated by imposition of Na+ and Cl- gradients (out > in) and of a K+ gradient (in > out). The presence of Na+ or Cl-, even in the absence of a gradient, stimulated DA accumulation by NET, but K+ had little or no effect in the absence of a K+ gradient. Stimulation by a K+ gradient was markedly enhanced by increasing the K+ permeability with valinomycin, suggesting that net positive charge is transported together with DA. Cationic DA is likely to be the major substrate for NET, since varying pH did not affect Km. We estimated the Na+:DA stoichiometry by measuring the effect of the transmembrane Na+ gradient on peak DA accumulation. The results suggest a 1:1 cotransport of Na+ with DA. Taken together, the results suggest that NET catalyzes cotransport of one cationic substrate molecule with one Na+ ion, and one Cl- ion, and that K+ does not participate directly in the transport process.
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PMID:Ion coupling stoichiometry for the norepinephrine transporter in membrane vesicles from stably transfected cells. 863 18

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

Quantitative in situ hybridization was utilized to map the distribution and abundance of the serotonin, dopamine and norepinephrine transporter (SERT, DAT and NET, respectively) mRNAs. SERT mRNA was quantified within the dorsal raphe (DR) and the median raphe (MR), DAT mRNA within the ventral tegmental area -substantia nigra (VTA-SN) region and NET mRNA within the locus coeruleus (LC). SERT mRNA expression within the raphe complex was organized into distinct subregional domains with the rank order of mRNA abundance: ventromedial (vm) DR > dorsomedial (dm) DR > MR > dorsolateral (dl) DR. The relative abundance of DAT mRNA also varied across subregions: SN pars compacta > the parabrachial pigmentosis (PBP) > the intrafascicular (IF). The effects of a 'binge' paradigm of cocaine administration on SERT, DAT and NET mRNA abundance were compared in the brains of behaviorally sensitized rats. Cocaine significantly decreased the abundance of the SERT mRNA within the dlDR and DAT mRNA abundance within the SNc and the PBP, and increased the abundance of the NET mRNA within the LC. Finally, correlational analysis indicated that post-cocaine levels of DAT, SERT and NET mRNAs were not associated with cocaine-induced sensitization.
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PMID:Serotonin, dopamine and norepinephrine transporter mRNAs: heterogeneity of distribution and response to 'binge' cocaine administration. 938 68

The effects of blockade of serotonin (5-HT) and norepinephrine (NE) transporters (SERT and NET, respectively) on the removal of locally applied 5-HT from extracellular fluid (ECF) were examined using in vivo chronoamperometry. Male Sprague-Dawley rats were anesthetized with chloralose/urethane, and a Nafion-coated, carbon fiber electrode attached to a multibarrel micropipette was positioned into either the dentate gyrus or CA3 region of the dorsal hippocampus. Pressure ejection of 5-HT elicited reproducible electrochemical signals of similar peak amplitude and time course in both structures. Local application of the selective serotonin reuptake inhibitors (SSRI) fluvoxamine and citalopram prolonged the clearance of 5-HT in both brain regions and also increased signal amplitude in the CA3 region. These effects were abolished in rats pretreated with 5, 7-dihydroxytryptamine (5,7-DHT), a selective 5-HT neurotoxin. The NE uptake inhibitors desipramine (DMI) and protriptyline did not alter the 5-HT signal in the CA3 region but prolonged the clearance of 5-HT in the dentate gyrus; this effect was absent in rats pretreated with 6-hydroxydopamine (6-OHDA), a selective catecholamine neurotoxin. The prolongation of the removal of 5-HT from the ECF in the dentate gyrus caused by fluvoxamine or desipramine was of comparable magnitude and was dose dependent. Furthermore, per picomole of 5-HT applied, the signal amplitude and clearance time were significantly increased in the dentate gyrus of rats lesioned with either 5,7-DHT or 6-OHDA. Only 5,7-DHT treatment caused this effect in the CA3 region. From these data, it is inferred that in certain regions of brain (dentate gyrus), both the SERT and NET contribute to the active clearance of exogenously applied 5-HT.
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PMID:In vivo chronoamperometric measures of extracellular serotonin clearance in rat dorsal hippocampus: contribution of serotonin and norepinephrine transporters. 969 57

Local application of selective serotonin reuptake inhibitors, fluvoxamine and citalopram, prolonged the clearance of exogenously administered serotonin (5-HT) in both the dentate gyrus and CA3 region of the dorsal hippocampus, as measured using in vivo chronoamperometry. These effects were abolished in rats pretreated with 5,7-dihydroxytryptamine. The NE uptake inhibitors, desipramine and protriptyline, did not alter the 5-HT signal in the CA3 region, but prolonged the clearance of 5-HT in the dentate gyrus; this effect was absent in rats pretreated with 6-hydroxydopamine. From these data, it is inferred that both the SERT and NET contribute to the active clearance of exogenously applied 5-HT in the dentate gyrus. In another experiment, cyanopindolol, an antagonist of the serotonin terminal autoreceptor, also prolonged the clearance of 5-HT from the CA3 region. These and other data have generated a working hypothesis that activation of the terminal serotonin autoreceptor enhances the kinetics of 5-HT uptake through an effect on the serotonin transporter.
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PMID:Serotonin transporter function in vivo: assessment by chronoamperometry. 992 59

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

A new radioligand, 5-iodo-2-[[2-2-[(dimethylamino)methyl]phenyl]thio]benzyl alcohol ([(123)I]IDAM), has been developed for selective single-photon emission tomography (SPET) imaging of SERT. In vitro binding studies suggest a high selectivity of IDAM for SERT (K(i)=0.097 nM), with considerably lower affinities for norepinephrine and dopamine transporters (NET K(i)= 234 nM and DAT K(i)>10 microM, respectively). In this study the biodistribution of SERT in the baboon brain was investigated in vivo using [(123)I]IDAM and SPET imaging. Dynamic sequences of SPET scans were performed on three female baboons (Papio anubis) after injection of 555 MBq of [(123)I]IDAM. Displacing doses (1 mg/kg) of the selective SERT ligand (+)McN5652 were administered 90-120 min after injection of [(123)I]IDAM. Similar studies were performed using a NET inhibitor, nisoxetine, and a DAT blocker, methylphenidate. After 60-120 min, the regional distribution of tracer within the brain reflected the characteristic distribution of SERT, with the highest uptake in the midbrain area (hypothalamus, raphe nucleus, substantia nigra), and the lowest uptake in the cerebellum (an area presumed free of SERT). Peak specific binding in the midbrain occurred at 120 min, with a ratio to the cerebellum of 1.80+/-0.13. At 30 min, 85% of the radioactivity in the blood was metabolite. Following injection of a competing SERT ligand, (+)McN5652, the tracer exhibited rapid washout from areas with high concentrations of SERT (dissociation rate constant in the midbrain, averaged over three baboons, k(off)=0. 025+/-0.002 min(-1)), while the cerebellar activity distribution was undisturbed (washout rate 0.0059+/- 0.0003 min(-1)). Calculation of tracer washout rate pixel-by-pixel enabled the generation of parametric images of the dissociation rate constant. Similar studies using nisoxetine and methylphenidate had no effect on the distribution of [(123)I]IDAM in the brain. These results suggest that [(123)I]IDAM is suitable for selective SPET imaging of SERT in the primate brain, with high contrast, favorable kinetics, and negligible binding to either NET or DAT.
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PMID:Single-photon emission tomography imaging of serotonin transporters in the non-human primate brain with the selective radioligand [(123)I]IDAM. 1043 98

A new eukaryotic nutrient amino acid transporter has been cloned from an epithelium that is exposed to high voltages and alkaline pH. The full-length cDNA encoding this novel CAATCH1 (cation-anion-activated Amino acid transporter/channel) was isolated using a polymerase chain reaction-based strategy, and its expression product in Xenopus oocytes displayed a combination of several unique, unanticipated functional properties. CAATCH1 electrophysiological properties resembled those of Na(+),Cl(-)-coupled neurotransmitter amine transporters, although CAATCH1 was cloned from a gut absorptive epithelium rather than from an excitable tissue. Amino acids such as l-proline, l-threonine, and l-methionine elicited complex current-voltage relationships in alkaline pH-dependent CAATCH1 that were reminiscent of the behavior of the dopamine, serotonin, and norepinephrine transporters (DAT, SERT, NET) in the presence of their substrates and pharmacological inhibitors such as cocaine or antidepressants. These I-V relationships indicated a combination of substrate-associated carrier current plus an independent CAATCH1-associated leakage current that could be blocked by certain amino acids. However, unlike all structurally related proteins, CAATCH1 activity is absolutely independent of Cl(-). Unlike related KAAT1, CAATCH1 possesses a methionine-inhibitable constitutive leakage current and is able to switch its narrow substrate selectivity, preferring threonine in the presence of K(+) but preferring proline in the presence of Na(+).
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PMID:A novel electrogenic amino acid transporter is activated by K+ or Na+, is alkaline pH-dependent, and is Cl--independent. 1082 35

Presynaptic transporter proteins regulate the clearance of extracellular biogenic amines after release and are important targets for multiple psychoactive agents, including amphetamines, cocaine, and antidepressant drugs. Recent studies reveal that dopamine (DA), norepinephrine (NE), and serotonin (5-HT) transporters (DAT, NET, and SERT, respectively) are rapidly regulated by direct or receptor-mediated activation of cellular kinases, particularly protein kinase C (PKC). With SERTs, PKC activation results in activity-dependent transporter phosphorylation and sequestration. Protein phosphatase 1/2A (PP1/PP2A) inhibitors, such as okadaic acid (OA) and calyculin A, also promote SERT phosphorylation and functional downregulation. How kinase, phosphatase, and transporter activities are linked mechanistically is unclear. In the present study, we found that okadaic acid-sensitive phosphatase activity is enriched in SERT immunoprecipitates from human SERT stably transfected cells. Moreover, blots of these immunoprecipitates reveal the presence of PP2A catalytic subunit (PP2Ac), findings replicated using brain preparations. Whole-cell treatments with okadaic acid or calyculin A diminished SERT/PP2Ac associations. Phorbol esters, which trigger SERT phosphorylation, also diminish SERT/PP2Ac associations, effects that can be blocked by PKC antagonists as well as the SERT substrate 5-HT. Similar transporter/PP2Ac complexes were also observed in coimmunoprecipitation studies with NETs and DATs. Our findings provide evidence for the existence of regulated heteromeric assemblies involving biogenic amine transporters and PP2A and suggest that the dynamic stability of these complexes may govern transporter phosphorylation and sequestration.
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PMID:Cocaine and antidepressant-sensitive biogenic amine transporters exist in regulated complexes with protein phosphatase 2A. 1102 16

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