One-step purification of the serotonin transporter located at the human platelet plasma membrane.
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A 68-kDa glycoprotein bearing the biological activity of the plasma membrane serotonin (5-hydroxytryptamine, 5-HT) transporter has been purified from human blood platelets, a classical cell model for the study of 5-HT uptake. After treatment of the whole platelet population or its plasma membrane fraction by sulfhydryl-dependent bacterial protein toxins or by digitonin, purification was reproducibly obtained by a one-step affinity chromatography using two different columns with 5-HT or 6-fluorotryptamine as ligands and elution by 5-HT or Na(+)-free buffer. The purified fraction migrated on sodium dodecyl sulfate-polyacrylamide gel electrophoresis as a single band with an apparent molecular mass of 68 kDa and exhibited an apparent isoelectric point of 5.6-6.2. Two sialic acid residues were detected in the purified material. The purified glycoprotein bound the 5-HT uptake blocker [3H]paroxetine with a Kd (0.25 nM) similar to the one observed for intact human platelets. It also bound [3H] 5-HT but neither [3H]hydroxytetrabenazine nor [3H] ouabain, the respective markers of the granular monoamine transporter and of the Na+,K(+)-ATPase associated to the plasma membrane 5-HT transporter. 5-HT derivatives and 5-HT uptake inhibitors exhibited similar Ki values for 5-HT uptake and paroxetine binding in intact human platelets and in the purified glycoprotein. Under laser UV irradiation, 40% of this purified glycoprotein could be labeled by either [3H]paroxetine or [3H]cyanoimipramine. No labeling was detected with either [3H] gamma-aminobutyric acid or [3H]GBR 12783, the respective markers of gamma-aminobutyric acid and dopamine carriers. The purified 68-kDa protein is therefore likely to correspond at least to the binding domain of the 5-HT transporter located at the human platelet plasma membrane. (+info)
11C-DTBZ and 18F-FDG PET measures in differentiating dementias.
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Accurate, early differentiation of dementias will become increasingly important as new therapies are introduced. Differential diagnosis by standard clinical criteria has limited accuracy. PET offers the potential to increase diagnostic accuracy. (18)F-FDG studies detect metabolic abnormalities in demented patients, but with limited specificity. PET also offers the ability to quantify other biochemical markers that can yield additional useful diagnostic information. We demonstrate that (+)-(11)C-dihydrotetrabenazine ((11)C-DTBZ) studies, which provide an index of nigrostriatal terminal density (distribution volume; DV), also provide a measure of transport (K(1)) that produces information comparable to the metabolic measure of (18)F-FDG. METHODS: Fifty-two patients and 19 control subjects underwent both (11)C-DTBZ and (18)F-FDG PET scans. Seven had the clinical diagnosis of frontotemporal dementia (FTD), 25 had Alzheimer's disease (AD), and 20 had dementia with Lewy bodies (DLB). DTBZ scans provided maps of K(1) and DV, whereas (18)F-FDG scans provided maps of glucose metabolism. Correlation analyses were performed between the different PET measures both within and across subjects. Discriminant analysis using logistic regression compared the performance of (11)C-DTBZ K(1) and (18)F-FDG in differentiating subject groups. Three experienced PET researchers participated in an interrater reliability study using both (11)C-DTBZ K(1) and (18)F-FDG images. RESULTS: Within-subject correspondence between (11)C-DTBZ K(1) and (18)F-FDG measures was high, with correlations averaging 0.92. Correlations between the (11)C-DTBZ DV and either K(1) or (18)F-FDG were far lower, averaging 0.37 and 0.31, respectively, indicating the much higher degree of similarity in information provided by K(1) and (18)F-FDG compared with the very different information provided by (11)C-DTBZ DV. Discriminant analysis demonstrated that (11)C-DTBZ K(1) and (18)F-FDG yielded similar levels of sensitivity and specificity for differentiating the subjects in this study. Including (11)C-DTBZ DV in addition to either K(1) or (18)F-FDG improved discrimination between groups. The raters classified PET scans nearly equivalently using K(1) and (18)F-FDG. CONCLUSION: Multiple PET measures, whether 2 parameters from a single PET study such as (11)C-DTBZ K(1) and DV, or 2 parameters from different studies such as (18)F-FDG and (11)C-DTBZ DV, offer complementary information useful for diagnosing dementias. K(1) and DV images generated from a single (11)C-DTBZ scan provide as much diagnostic information as 2-scan studies using both (11)C-DTBZ and (18)F-FDG. (+info)
PET in LRRK2 mutations: comparison to sporadic Parkinson's disease and evidence for presymptomatic compensation.
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Parkinson's disease may arise from multiple aetiologies, including genetic mutations that are for the most part uncommon. We describe here the positron emission tomography (PET) findings in clinically affected and asymptomatic, high-risk members of two autosomal dominantly inherited Parkinson's disease kindreds with recently described mutations at the PARK8 locus, in a novel gene encoding a leucine-rich repeat kinase (LRRK2). Affected family members have L-dopa-responsive parkinsonism with loss of dopaminergic nigral neurons and pleomorphic subcellular pathology. Fifteen family members underwent PET using: 18F-6-fluoro-L-dopa (18F-dopa) to assess dopamine (DA) synthesis and storage, 11C-(+/-)-dihydrotetrabenazine (11C-DTBZ) for the vesicular monoamine transporter, and 11C-d-threo-methylphenidate (11C-MP) for the membrane dopamine transporter (DAT). Measurements were compared with normal (n = 33) and sporadic Parkinson's disease (sPD) (n = 67) control groups. Four clinically affected members had findings similar to sPD, with impaired presynaptic DA function affecting the putamen more than the caudate. In two affected members, D2 dopamine receptor binding was intact. Two asymptomatic mutation carriers had abnormal DAT binding with another two developing such abnormalities over 4 years of follow-up. In these individuals, 18F-dopa uptake remained normal, although two of them also displayed abnormal 11C-DTBZ binding. Our study demonstrates that the in vivo neurochemical phenotype of LRRK2 mutations is indistinguishable from that of sPD, despite the pathological heterogeneity of the condition. Furthermore, we suggest that compensatory changes including downregulation of the DAT and upregulation of decarboxylase activity may delay the onset of parkinsonian symptoms. (+info)
Longitudinal noninvasive PET-based beta cell mass estimates in a spontaneous diabetes rat model.
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Diabetes results from an absolute or relative reduction in pancreatic beta cell mass (BCM) leading to insufficient insulin secretion and hyperglycemia. Measurement of insulin secretory capacity is currently used as a surrogate measure of BCM. However, serum insulin concentrations provide an imprecise index of BCM, and no reliable noninvasive measure of BCM is currently available. Type 2 vesicular monoamine transporters (VMAT2) are expressed in human islet beta cells, as well as in tissues of the CNS. [11C]Dihydrotetrabenazine ([11C]DTBZ) binds specifically to VMAT2 and is a radioligand currently used in clinical imaging of the brain. Here we report the use of [11C]DTBZ to estimate BCM in a rodent model of spontaneous type 1 diabetes (the BB-DP rat). In longitudinal PET studies of the BB-DP rat, we found a significant decline in pancreatic uptake of [11C]DTBZ that anticipated the loss of glycemic control. Based on comparison of standardized uptake values (SUVs) of [11C]DTBZ and blood glucose concentrations, loss of more than 65% of the original SUV correlated significantly with the development of persistent hyperglycemia. These studies suggest that PET-based quantitation of VMAT2 receptors provides a noninvasive measurement of BCM that could be used to study the pathogenesis of diabetes and to monitor therapeutic interventions. (+info)
Interaction of amphetamines and related compounds at the vesicular monoamine transporter.
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Amphetamine-type agents interact with the vesicular monoamine transporter type 2 (VMAT(2)), promoting the release of intravesicular neurotransmitter and an increase in cytoplasmic neurotransmitter. Some compounds, such as reserpine, "release" neurotransmitter by inhibiting the ability of VMAT(2) to accumulate neurotransmitter in the vesicle, whereas other types of compounds can release neurotransmitter via a carrier-mediated exchange mechanism. The purpose of this study was to determine, for 42 mostly amphetamine-related compounds, their mode of interaction with the VMAT(2). We used a crude vesicular fraction prepared from rat caudate to assay VMAT(2) activity. Test compounds were assessed in several assays, including 1) inhibition of [(3)H]dihydrotetrabenazine binding, 2) inhibition of vesicular [(3)H]dopamine uptake, and 3) release of preloaded [(3)H]dopamine and [(3)H]tyramine. Several important findings derive from this comprehensive study. First, our work indicates that most agents are VMAT(2) substrates. Second, our data strongly suggest that amphetamine-type agents deplete vesicular neurotransmitter via a carrier-mediated exchange mechanism rather than via a weak base effect, although this conclusion needs to be confirmed via direct measurement of vesicular pH. Third, our data fail to reveal differential VMAT(2) interactions among agents that do and do not produce long-term 5-hydroxytryptamine depletion. Fourth, the data reported revealed the presence of two pools of [(3)H]amine within the vesicle, one pool that is free and one pool that is tightly associated with the ATP/protein complex that helps store amine. Finally, the VMAT(2) assays we have developed should prove useful for guiding the synthesis and evaluation of novel VMAT(2) agents as possible treatment agents for addictive disorders. (+info)
Visualizing pancreatic beta-cell mass with [11C]DTBZ.
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Beta-cell mass (BCM) influences the total amount of insulin secreted, varies by individual and by the degree of insulin resistance, and is affected by physiologic and pathologic conditions. The islets of Langerhans, however, appear to have a reserve capacity of insulin secretion and, overall, assessments of insulin and blood glucose levels remain poor measures of BCM, beta-cell function and progression of diabetes. Thus, novel noninvasive determinations of BCM are needed to provide a quantitative endpoint for novel therapies of diabetes, islet regeneration and transplantation. Built on previous gene expression studies, we tested the hypothesis that the targeting of vesicular monoamine transporter 2 (VMAT2), which is expressed by beta cells, with [11C]dihydrotetrabenazine ([11C]DTBZ), a radioligand specific for VMAT2, and the use of positron emission tomography (PET) can provide a measure of BCM. In this report, we demonstrate decreased radioligand uptake within the pancreas of Lewis rats with streptozotocin-induced diabetes relative to their euglycemic historical controls. These studies suggest that quantitation of VMAT2 expression in beta cells with the use of [11C]DTBZ and PET represents a method for noninvasive longitudinal estimates of changes in BCM that may be useful in the study and treatment of diabetes. (+info)
Computational neural network analysis of the affinity of lobeline and tetrabenazine analogs for the vesicular monoamine transporter-2.
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Back-propagation artificial neural networks (ANNs) were trained on a dataset of 104 VMAT2 ligands with experimentally measured log(1/K(i)) values. A set of related descriptors, including topological, geometrical, GETAWAY, aromaticity, and WHIM descriptors, was selected to build nonlinear quantitative structure-activity relationships. A partial least squares (PLS) regression model was also developed for comparison. The nonlinearity of the relationship between molecular descriptors and VMAT2 ligand activity was demonstrated. The obtained neural network model outperformed the PLS model in both the fitting and predictive ability. ANN analysis indicated that the computed activities were in excellent agreement with the experimentally observed values (r(2)=0.91, rmsd=0.225; predictive q(2)=0.82, loormsd=0.316). The generated models were further tested by use of an external prediction set of 15 molecules. The nonlinear ANN model has r(2)=0.93 and root-mean-square errors of 0.282 compared with the experimentally measured activity of the test set. The stability test of the model with regard to data division was found to be positive, indicating that the generated model is predictive. The modeling study also reflected the important role of atomic distribution in the molecules, size, and steric structure of the molecules when they interact with the target, VMAT2. The developed models are expected to be useful in the rational design of new chemical entities as ligands of VMAT2 and for directing synthesis of new molecules in the future. (+info)
Pharmacokinetics of [(18)F]fluoroalkyl derivatives of dihydrotetrabenazine in rat and monkey brain.
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The specific binding and regional brain pharmacokinetics of new fluorine-18 ([(18)F])-labeled radioligands for the vesicular monoamine transporter (VMAT2) were examined in the rat and primate brain. In the rat, 9-[(18)F]fluoropropyl-(+/-)-9-O-desmethyldihydrotetrabenazine ([(18)F]FP-(+/-)-DTBZ) showed better specific binding in the striatum than either (+)-[(11)C]dihydrotetrabenazine ((+)-[(11)C]DTBZ) or 9-[(18)F]fluoroethyl-(+/-)-9-O-desmethyldihydrotetrabenazine ([(18)F]FE-(+/-)-DTBZ). Using microPET, the regional brain pharmacokinetics of [(18)F]FE-(+/-)-DTBZ, [(18)F]FP-(+/-)-DTBZ and (+)-[(11)C]DTBZ were examined in the same monkey brain. (+)-[(11)C]DTBZ and [(18)F]FP-(+/-)-DTBZ showed similar brain uptakes and pharmacokinetics, with similar maximum striatum-to-cerebellum ratios (STR/CBL=5.24 and 5.15, respectively) that were significantly better than obtained for [(18)F]FE-(+/-)-DTBZ (STR/CBL=2.55). Striatal distribution volume ratios calculated using Logan plot analysis confirmed the better specific binding for the fluoropropyl compound [distribution volume ratio (DVR)=3.32] vs. the fluoroethyl compound (DVR=2.37). Using the resolved single active isomer of the fluoropropyl compound, [(18)F]FP-(+)-DTBZ, even better specific to nonspecific distribution was obtained, yielding the highest distribution volume ratio (DVR=6.2) yet obtained for a VMAT2 ligand in any species. The binding of [(18)F]FP-(+)-DTBZ to the VMAT2 was shown to be reversible by administration of a competing dose of unlabeled tetrabenazine. Metabolic defluorination was slow and minor for the [(18)F]fluoroalkyl-DTBZ ligands. The characteristics of high specific binding ratio, reversibility, metabolic stability and longer half-life of the radionuclide make [(18)F]FP-(+)-DTBZ a promising alternative VMAT2 radioligand suitable for widespread use in human positron emission tomography studies of monoaminergic innervation of the brain. (+info)