Abstract

We evaluated the in vivo kinetics, distribution, and pharmacology of N-(4-[F] fluorornethylbenzyl)spiperone ([F]FMBS), a newly developed derivative of spiperone, as a potentially more selective #radiotrar.er for the dopamine (DA) Dz receptors. Mice received 1.9-3.7 MBq (1.8-3.6 nmol/kg) of [F]FMBS by tail vein injectivn. The time course and regional distribution of the tracer in brain were assessed. Blocking studies were carried out by intravenously preinjecting DA Dp receptor blockers (spiperone, butaclamol) as well as drugs with high affinity for DA Dr lSCH 23390), DA transporter (GBR 12909), and serotonin Sp (5-HTz) (ketanserin) sites. After injection of the tracer, the radioactivity in striatum increased steadily over time, resulting in a striatal-to-cerebellar ratio of 4.8 at 120 min postinjection. By contrast, the radioactivity in cerebellum, frontal cortex, and remaining cortex washed out rapidly. Preinjection of unlabe1ed FMBS (1 rng/kg) and spiperone (1 mg/kg) reduced [F] FMBS striatal-to-cerebellar ratio by 41Zo and 80Ya, respectively. (+)-Butaclamol(1 mg/kg) blocked 80Yo of the striatal [F]FMBS binding, while (-)-butaclamol (1 rng/kg) did not. Preinjection of SCH 23390 (1 mg/kg) and GBR 12909 (5 mg/kg) had no significant effect. On [""F]FMBS binding. Ketanserin (1 mg/kg), a ligand for the 5-H1g receptors, did not cause significant inhibition either in striatum, in frontal cortex, or the remaining cortex. The results demonstrate that [F]FMEtS labels DA Dz receptors selectively in vivo in the mouse brain. It may hold promise as a selective radiotracer for studying DA Dz receptors in vivo by PET.