In vivo quantification of brain serotonin transporters in humans using [11C]McN 5652.
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Abnormal brain regional densities of serotonin (5-hydroxytryptamine [5-HT]) transporters have been reported in postmortem studies in several neuropsychiatric conditions, such as major depression and schizophrenia. trans-1,2,3,5,6,10-beta-Hexahydro-6-[4-(methylthio)phenyl]pyrrolo-[2,1-a]-isoquin oline ([11C]McN 5652) is the first PET radioligand successfully developed to label 5-HT transporters in the living human brain. The purpose of this study was to develop an imaging protocol and analytic method to measure regional 5-HT transporter binding potential (BP) with [11C]McN 5652 in humans. METHODS: The arterial input function and brain uptake of (+)-[11C]McN 5652 and (-)-[11C]McN 5652, the active and inactive enantiomers, respectively, were measured in 6 healthy volunteers. RESULTS: (+)-[11C]McN 5652 concentrated in brain regions rich in 5-HT transporters (midbrain, thalamus, basal ganglia, and medial temporal lobe structures), whereas the uptake of (-)-[11C]McN 5652 was more uniformly distributed. Total distribution volumes (V(T)) were derived using kinetic 2-compartment analysis and graphic analysis. V(T) derived by both methods were highly correlated. (+)-[11C]McN 5652 regional V(T) ranged from 18 +/- 2 mL/g in the cerebellum to 46 +/- 13 mL/g in the midbrain. (-)-[11C]McN 5652 regional VT ranged from 10 +/- 2 mL/g in the cerebellum to 14 +/- 3 mL/g in the thalamus. (+)-[11C]McN 5652 V(T) were higher than (-)-[11C]McN 5652 V(T) in all regions, including the cerebellum, a region devoid of 5-HT transporters. Blocking experiments were also performed in baboons with saturating doses of citalopram and in humans with nonsaturating doses of paroxetine. Cerebellar and neocortical (+)-[11C]McN 5652 V(T) were unaffected by pretreatment with 5-HT transporter blockers. In areas of high receptor concentration (midbrain, caudate, and thalamus) 5-HT transporter blockers decreased (+)-[11C]McN 5652 V(T) to the level of cerebellum (+)-[11C]McN 5652 V(T). CONCLUSION: These experiments indicate that the use of the difference between (+)- and (-)-[11C]McN 5652 V(T) to define specific binding to 5-HT transporters leads to an overestimation of specific binding. 5-HT transporter BP was derived as the difference between the regional and cerebellar (+)-[11C]McN 5652 V(T). BP values were in good agreement with the distribution of 5-HT transporters in the human brain, except for regions of relatively low 5-HT transporter concentration, such as the prefrontal cortex, where no specific binding was detected using (+)-[11C]McN 5652. (+)-[11C]McN 5652 is an appropriate radiotracer to quantify 5-HT transporters in regions with relatively high concentration of 5-HT transporters, such as the midbrain, thalamus, and basal ganglia, and should prove useful in elucidating abnormalities of 5-HT transmission in neuropsychiatric conditions. (+info)
Cocaine and antidepressant-sensitive biogenic amine transporters exist in regulated complexes with protein phosphatase 2A.
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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. (+info)
Allelic variation in the serotonin transporter promoter affects onset of paroxetine treatment response in late-life depression.
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The relationship of the serotonin transporter gene promoter region polymorphism (5-HTTLPR) to antidepressant response was examined in 95 elderly patients receiving a protocolized treatment for depression with paroxetine or nortriptyline. Patients were treated for up to 12 weeks and assessed weekly with clinical ratings and measurements of plasma drug concentrations. Twenty-one of the paroxetine-treated subjects were found to have the ll genotype and 30 had at least one s allele. There were no baseline differences between these groups in pretreatment Hamilton Rating Scale for Depression (HRSD) scores or anxiety symptoms. During acute treatment with paroxetine, mean reductions from baseline in HRSD were significantly more rapid for patients with the ll genotype than for those possessing an s allele, despite equivalent paroxetine concentrations. Onset of response to nortriptyline was not affected. Allelic variation of 5-HTTLPR may contribute to the variable initial response of patients treated with a selective serotonin reuptake inhibitor. (+info)
Reduction in the density and expression, but not G-protein coupling, of serotonin receptors (5-HT1A) in 5-HT transporter knock-out mice: gender and brain region differences.
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The aim of the present study was to investigate the mechanisms underlying the desensitization of 5-HT(1A) receptors in the dorsal raphe and hypothalamus of serotonin (5-HT) transporter knock-out mice (5-HTT -/-). The density of 5-HT(1A) receptors in the dorsal raphe was reduced in both male and female 5-HTT -/- mice. This reduction was more extensive in female than in male 5-HTT -/- mice. 8-OH-DPAT-induced hypothermia was absent in female 5-HTT -/- and markedly attenuated in 5-HTT +/- mice. The density of 5-HT(1A) receptors also was decreased significantly in several nuclei of the hypothalamus, amygdala, and septum of female 5-HTT -/- mice. 5-HT(1A) receptor mRNA was reduced significantly in the dorsal raphe region, but not in the hypothalamus or hippocampus, of female 5-HTT +/- and 5-HTT -/- mice. G-protein coupling to 5-HT(1A) receptors and G-protein levels in most brain regions were not reduced significantly, except that G(o) and G(i1) proteins were reduced modestly in the midbrain of 5-HTT -/- mice. These data suggest that the desensitization of 5-HT(1A) receptors in 5-HTT -/- mice may be attributable to a reduction in the density of 5-HT(1A) receptors. This reduction is brain region-specific and more extensive in the female mice. The reduction in the density of 5-HT(1A) receptors may be mediated partly by reduction in the gene expression of 5-HT(1A) receptors in the dorsal raphe, but also by other mechanisms in the hypothalamus of 5-HTT -/- female mice. Finally, alterations in G-protein coupling to 5-HT(1A) receptors are unlikely to be involved in the desensitization of 5-HT(1A) receptors in 5-HTT -/- mice. (+info)
Functional role of critical stripe residues in transmembrane span 7 of the serotonin transporter. Effects of Na+, Li+, and methanethiosulfonate reagents.
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Mutations at critical residue positions in transmembrane span 7 (TM7) of the serotonin transporter affect the Na(+) dependence of transport. It was possible that these residues, which form a stripe along one side of the predicted alpha-helix, formed part of a water-filled pore for Na(+). We tested whether cysteine substitutions in TM7 were accessible to hydrophilic, membrane-impermeant methanethiosulfonate (MTS) reagents. Although all five cysteine-containing mutants tested were sensitive to these reagents, noncysteine control mutants at the same positions were in most cases equally sensitive. In all cases, MTS sensitivity could be traced to changes in accessibility of a native cysteine residue in extracellular loop 1, Cys-109. Moreover, none of the TM7 cysteines reacted with the biotinylating reagent MTSEA-biotin when tested in the C109A background. It is thus unlikely that the critical stripe forms part of a water-filled pore. Instead, studies of the ion dependence of the reaction between Cys-109 and MTS reagents lead to the conclusion that TM7 is involved in propagating conformational changes caused by ion binding, perhaps as part of the translocation mechanism. The critical stripe residues on TM7 probably represent a close contact region between TM7 and one or more other TMs in the transporter's three-dimensional structure. (+info)
Biophysical characterization of the cocaine binding pocket in the serotonin transporter using a fluorescent cocaine analogue as a molecular reporter.
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To explore the biophysical properties of the binding site for cocaine and related compounds in the serotonin transporter SERT, a high affinity cocaine analogue (3beta-(4-methylphenyl)tropane-2beta-carboxylic acid N-(N-methyl-N-(4-nitrobenzo-2-oxa-1,3-diazol-7-yl)ethanolamine ester hydrochloride (RTI-233); K(I) = 14 nm) that contained the environmentally sensitive fluorescent moiety 7-nitrobenzo-2-oxa-1,3-diazole (NBD) was synthesized. Specific binding of RTI-233 to the rat serotonin transporter, purified from Sf-9 insect cells, was demonstrated by the competitive inhibition of fluorescence using excess serotonin, citalopram, or RTI-55 (2beta-carbomethoxy-3beta-(4-iodophenyl)tropane). Moreover, specific binding was evidenced by measurement of steady-state fluorescence anisotropy, showing constrained mobility of bound RTI-233 relative to RTI-233 free in solution. The fluorescence of bound RTI-233 displayed an emission maximum (lambda(max)) of 532 nm, corresponding to a 4-nm blue shift as compared with the lambda(max) of RTI-233 in aqueous solution and corresponding to the lambda(max) of RTI-233 in 80% dioxane. Collisional quenching experiments revealed that the aqueous quencher potassium iodide was able to quench the fluorescence of RTI-233 in the binding pocket (K(SV =) 1.7 m(-)(1)), although not to the same extent as free RTI-233 (K(SV =) 7.2 m(-)(1)). Conversely, the hydrophobic quencher 2,2,6,6-tetramethylpiperidine-N-oxyl (TEMPO) quenched the fluorescence of bound RTI-233 more efficiently than free RTI-233. These data are consistent with a highly hydrophobic microenvironment in the binding pocket for cocaine-like uptake inhibitors. However, in contrast to what has been observed for small-molecule binding sites in, for example, G protein-coupled receptors, the bound cocaine analogue was still accessible for aqueous quenching and, thus, partially exposed to solvent. (+info)
Oligomerization of the human serotonin transporter and of the rat GABA transporter 1 visualized by fluorescence resonance energy transfer microscopy in living cells.
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Recent biochemical studies indicate that the serotonin transporter can form oligomers. We investigated whether the human serotonin transporter (hSERT) can be visualized as an oligomer in the plasma membrane of intact cells. For this purpose, we generated fusion proteins of hSERT and spectral variants of the green fluorescent protein (cyan and yellow fluorescent proteins, CFP and YFP, respectively). When expressed in human embryonic kidney 293 cells, the resulting fusion proteins (CFP-hSERT and YFP-hSERT) were efficiently inserted into the plasma membrane and were functionally indistinguishable from wild-type hSERT. Oligomers were visualized by fluorescence resonance energy transfer microscopy in living cells using two complementary methods, i.e. ratio imaging and donor photobleaching. Interestingly, oligomerization was not confined to hSERT; fluorescence resonance energy transfer was also observed between CFP- and YFP-labeled rat gamma-aminobutyric acid transporter. The bulk of serotonin transporters was recovered as high molecular weight complexes upon gel filtration in detergent solution. In contrast, the monomers of CFP-hSERT and YFP-hSERT were essentially undetectable. This indicates that the homo-oligomeric form is the favored state of hSERT in living cells, which is not significantly affected by coincubation with transporter substrates or blockers. Based on our observations, we conclude that constitutive oligomer formation might be a general property of Na(+)/Cl(-)-dependent neurotransmitter transporters. (+info)
Methamphetamine-induced neurotoxicity is attenuated in transgenic mice with a null mutation for interleukin-6.
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Increasing evidence implicates apoptosis as a major mechanism of cell death in methamphetamine (METH) neurotoxicity. The involvement of a neuroimmune component in apoptotic cell death after injury or chemical damage suggests that cytokines may play a role in METH effects. In the present study, we examined if the absence of IL-6 in knockout (IL-6-/-) mice could provide protection against METH-induced neurotoxicity. Administration of METH resulted in a significant reduction of [(125)I]RTI-121-labeled dopamine transporters in the caudate-putamen (CPu) and cortex as well as depletion of dopamine in the CPu and frontal cortex of wild-type mice. However, these METH-induced effects were significantly attenuated in IL-6-/- animals. METH also caused a decrease in serotonin levels in the CPu and hippocampus of wild-type mice, but no reduction was observed in IL-6-/- animals. Moreover, METH induced decreases in [(125)I]RTI-55-labeled serotonin transporters in the hippocampal CA3 region and in the substantia nigra-reticulata but increases in serotonin transporters in the CPu and cingulate cortex in wild-type animals, all of which were attenuated in IL-6-/- mice. Additionally, METH caused increased gliosis in the CPu and cortices of wild-type mice as measured by [(3)H]PK-11195 binding; this gliotic response was almost completely inhibited in IL-6-/- animals. There was also significant protection against METH-induced DNA fragmentation, measured by the number of terminal deoxynucleotidyl transferase-mediated dUTP nick-end-labeled (TUNEL) cells in the cortices. The protective effects against METH toxicity observed in the IL-6-/- mice were not caused by differences in temperature elevation or in METH accumulation in wild-type and mutant animals. Therefore, these observations support the proposition that IL-6 may play an important role in the neurotoxicity of METH. (+info)