J.A. Van Der Krogt , E.K.J. Pauwels , P.A.P.M. Van Doremalen , G. Wijnhoven , S. Reiffers , C.F.M. Van Valkenburg , O.J.S. Buruma
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引用次数: 0
摘要
放射性碘化的spiperone是通过单光子发射计算机断层扫描(SPECT)研究活体人脑多巴胺(DA)受体的兴趣。在[11C]- n -甲基-spiperone获得的数据的刺激下,我们合成了4-[123I]碘spiperone,并研究了该配体与大鼠纹状体膜的体外结合特性以及在大鼠脑各区域的体内分布。体外结合实验表明,该放射性配体对DA受体的亲和力约为spiperone的10倍,并且未观察到与[3H]spiperone的特异性结合。未观察到布他卡摩引起的移位。体内研究表明,4-[123I]碘spiperone和[3H]spiperone在纹状体组织中的浓度分别是小脑组织的1.9倍和3.5倍。氟哌啶醇预处理在很大程度上阻止了这种积累。然而,鉴于获得的靶与非靶比率,我们认为,这种在富含da受体的大脑区域的积累并不能为SPECT临床受体成像提供前景。
4-[123I]Iodospiperone as a ligand for dopamine DA receptors: In vitro and in vivo experiments in a rat model
Radioiodinated spiperone is of interest for dopamine (DA) receptor studies in the living human brain by single photon emission computed tomography (SPECT). Stimulated by data obtained with [11C]-N-methyl-spiperone we synthesized 4-[123I]iodospiperone and investigated the in vitro binding characteristics of this ligand to the striatal membrane of the rat and the in vivo distribution over various rat brain regions. The in vitro binding experiments showed that this radioligand displays about 10 times less affinity for the DA receptor than spiperone and specific binding, as shown with [3H]spiperone, was not observed. Displacement by butaclamol was not observed. The in vivo studies demonstrated that both 4-[123I]iodospiperone and [3H]spiperone concentrate in striatal tissue, respectively, 1.9 and 3.5 times as high as in cerebellar tissue.
Haloperidol pretreatment largely prevented this accumulation. In view of the obtained target-to-non-target ratios we believe, however, that this accumulation in brain areas rich in DA-receptors does not offer prospects for clinical receptor imaging with SPECT.
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