VMAT2 binding is elevated in dopa-responsive dystonia: visualizing empty vesicles by PET.

Dopa-responsive dystonia (DRD) is a lifelong disorder in which dopamine deficiency is not associated with neuronal loss and therefore it is an ideal human model for investigating the compensatory changes that occur in response to this biochemical abnormality. Using positron emission tomography (PET), we examined the (+/-)-alpha-[(11)C]dihydrotetrabenazine ([(11)C]DTBZ) binding potential of untreated DRD patients and normal controls. Two other PET markers of presynaptic nigrostriatal function, d-threo-[(11)C]methylphenidate ([(11)C]MP) and 6-[(18)F]fluoro-L-dopa ([(18)F]-dopa), and [(11)C]raclopride were also used in the study. We found increased [(11)C]DTBZ binding potential in the striatum of DRD patients. By contrast, no significant changes were detected in either [(11)C]MP binding potential or [(18)F]-dopa uptake rate constant. In addition, we found evidence for increased dopamine turnover in one DRD patient by examining changes in [(11)C]raclopride binding potential in relation to levodopa treatment. We propose that the increase in [(11)C]DTBZ binding likely reflects the dramatic decrease in the intravesicular concentration of dopamine that occurs in DRD; upregulation of vesicular monoamine transporter type 2 (VMAT2) expression may also contribute. Our findings suggest that the striatal expression of VMAT2 (as estimated by [(11)C]DTBZ binding) is not coregulated with dopamine synthesis. This is in keeping with a role for VMAT2 in other cellular processes (i.e., sequestration and release from the cell of potential toxic products), in addition to its importance for the quantal release of monoamines.

De La Fuente-Fernández R ，Furtado S ，Guttman M ，Furukawa Y ，Lee CS ，Calne DB ，Ruth TJ ，Stoessl AJ ... -  《SYNAPSE》

Rapid and differential losses of in vivo dopamine transporter (DAT) and vesicular monoamine transporter (VMAT2) radioligand binding in MPTP-treated mice.

The dose- and time-dependent changes of in vivo radioligand binding to the neuronal membrane dopamine transporter (DAT) and vesicular monoamine transporter type 2 (VMAT2) were examined in mouse brain after MPTP (1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine) administrations. Regional brain distribution studies were done in male C57BL/6 mice using simultaneous injections of d-threo-[(3)H]methylphenidate (DAT) and (+)-alpha-[(11)C]dihydrotetrabenazine (VMAT2). Single (55 mg/kg i.p. ) or multiple (4 x 10 mg/kg i.p., 1-hour intervals) administration of MPTP caused significant reductions in [(3)H]methylphenidate and [(11)C]dihydrotetrabenazine specific striatal binding, measured 14 days later. The single high dose of MPTP produced greater losses of [(11)C]dihydrotetrabenazine binding than did the multiple MPTP dosing regimen. Using the single high dose of MPTP, changes of in vivo binding of the two radioligands were determined at 1, 3, and 14 days after neurotoxin injection. At 1 day, there are large losses of [(3)H]methylphenidate binding (DAT) but no changes in [(11)C]dihydrotetrabenazine binding to the VMAT2 site in the striatum. At 3 and 14 days, there were >50% losses of binding of both bot radioligands, but significantly (P < 0.001) greater losses of VMAT2 binding of [(11)C]dihydrotetrabenazine. These studies indicate that the losses of the neuronal membrane and vesicular transporters are not always equal, and do not occur in the same time frame, after administration of the neurotoxin MPTP.

Kilbourn MR ，Kuszpit K ，Sherman P 《SYNAPSE》

In vivo positron emission tomographic evidence for compensatory changes in presynaptic dopaminergic nerve terminals in Parkinson's disease.

Lee CS ，Samii A ，Sossi V ，Ruth TJ ，Schulzer M ，Holden JE ，Wudel J ，Pal PK ，de la Fuente-Fernandez R ，Calne DB ，Stoessl AJ ... -  《ANNALS OF NEUROLOGY》

Age and severity of nigrostriatal damage at onset of Parkinson's disease.

The clinical evolution of Parkinson's disease (PD) is known to be partly dependent on the age of onset. For example, motor complications associated with chronic dopaminomimetic treatment occur more often in younger patients. However, few attempts have been made to characterize the functional pathological differences underlying this age effect. We investigated the relationship between age and severity of nigrostriatal damage at onset of PD. Twenty patients with early PD (symptom duration <or=5 years) with onset before age 50 (n = 10) and with onset after age 50 (n = 10) were studied. The two groups were compared with respect to severity of nigrostriatal damage as evaluated by positron emission tomography (PET) scanning with 6-[(18)F]fluoro-L-dopa ([(18)F]-dopa), (+/-)-alpha-[(11)C]dihydrotetrabenazine ([(11)C]DTBZ), and d-threo-[(11)C]methylphenidate ([(11)C]MP). We found no significant differences between younger- and older-onset PD patients with regard to any of the three presynaptic markers. For putamen, the P-values corresponding to the different PET measurements ranged from P = 0.34 ([(18)F]-dopa) to P = 0.79 ([(11)C]DTBZ). However, after adjusting for treatment and PD duration, regression analysis showed that [(18)F]-dopa uptake correlated positively with age of onset (r = 0.59; P = 0.010). No correlation was found between [(11)C]DTBZ and [(11)C]MP binding potentials and age of onset (P = 0.26 and P = 0.90, respectively). These data suggest that age-of-onset-dependent differences in clinical evolution are not likely to reflect early differences in nigrostriatal pathology in PD. Age-related differences in [(18)F]-dopa uptake may be related to changes in dopamine turnover.

De La Fuente-Fernández R ，Lim AS ，Sossi V ，Adam MJ ，Ruth TJ ，Calne DB ，Stoessl AJ ，Lee CS ... -  《-》

In vivo measures of dopaminergic radioligands in the rat brain: equilibrium infusion studies.

The application of an equilibrium infusion method for measuring specific in vivo radioligand binding in the conscious rat brain was evaluated for two ligands of the dopaminergic system, (+)-alpha-[(11)C]dihydrotetrabenazine (DTBZ) and d-threo-[(11)C]methylphenidate (MePhen). Both radioligands can be successfully utilized to reach equilibrium distributions in rat brain within 1 h; combinations of tritiated and carbon-11-labeled radiotracers can furthermore be used to obtain simultaneous measures of the neuronal membrane dopamine transporter (using [(3)H]MePhen) and vesicular monoamine transporter (using [(11)C]DTBZ) in the same animal. These studies provided quantitative measures of distribution volume ratios, which represent specific radioligand binding. Stereospecificity of in vivo binding was demonstrated using equilibrium infusions of the low-affinity isomers of each ligand, (-)-alpha-[(11)C]dihydrotetrabenazine (DTBZ) and l-threo-[(11)C]methylphenidate, both of which produced uniform brain distributions and no specific binding. Specific binding of (+)-alpha-[(11)C]dihydrotetrabenazine was blocked by co-infusion of tetrabenazine, but was unaffected by administration of methylphenidate, haloperidol, or apomorphine. Specific binding of d-threo-[(11)C]methylphenidate, conversely, was blocked with unlabeled methylphenidate but not affected by tetrabenazine or the dopamine receptor ligands. Equilibrium measures of in vivo radioligand binding, as utilized in this study, offer a quantitative means to evaluate acute and chronic drug effects on in vivo radioligand binding in the rat brain.

Kilbourn MR ，Sherman PS ，Kuszpit K 《SYNAPSE》