Sandell J, Halldin C, Pike V W, Chou Y H, Varnäs K, Hall H, Marchais S, Nowicki B, Wikström H V, Swahn C G, Farde L
Karolinska Institutet, Department of Clinical Neuroscience, Psychiatry Section, Karolinska Hospital, S-171 76, Stockholm, Sweden.
Nucl Med Biol. 2001 Feb;28(2):177-85. doi: 10.1016/s0969-8051(00)00181-5.
[Carbonyl-(11)C]WAY-100635 ([(11)C]WAY) is an established radioligand for the study of brain serotonin(1A) (5-HT(1A)) receptors in living animals and humans with positron emission tomography (PET). There is a recognised need to develop halogenated ligands for 5-HT(1A) receptors, either for labelling with longer-lived fluorine-18 for more widespread application with PET or with iodine-123 for application with single photon emission tomography (SPET). Here we used autoradiography and PET to assess two new halogenated analogues of WAY, namely 6BPWAY and 6FPWAY [N-(2-(1-(4-(2-methoxyphenyl)-piperazinyl)ethyl))-N-(2-(6-bromo-/fluoro-pyridinyl))cyclohexanecarboxamide] as prospective radioligands, initially using carbon-11 as the radiolabel. Labelling of 6BPWAY and 6FPWAY with carbon-11 was accomplished by acylation of the corresponding secondary amine precursors with [carbonyl-(11)C]cyclohexanecarbonyl chloride. After incubation of human brain crysections with [(11)C]6BPWAY or [(11)C]6FPWAY, the highest accumulation of radioactivity was observed in cortical areas and the hippocampal formation. Both radioligands had high nonspecific binding. There was a rapid accumulation of radioactivity in the monkey brain after intravenous injection of [(11)C]6BPWAY and [(11)C]6FPWAY. High accumulation of radioactivity was observed in the frontal and temporal cortex and the raphe nuclei, areas known to contain a high density of 5-HT(1A) receptors. The ratios of radioactivity in receptor-rich temporal cortex to that in receptor-poor cerebellum at peak equilibrium were 1.9 (at 10 min) and 3.0 at (at 20 min) for [(11)C]6BPWAY and [(11)C]6FPWAY, respectively. In pretreatment experiments with high doses of unlabelled WAY, the level of radioactivity in the frontal and temporal cortex and the raphe nuclei was reduced to the same level as in the cerebellum. Radioactive metabolites of [(11)C]6FPWAY appeared at a rate similar to those for [(11)C]WAY, with 17% of the radioactivity in plasma represented by unchanged radioligand after 40 min. Radioactive metabolites of [(11)C]6BPWAY appeared much more slowly. At 40 min after injection 45% of the radioactivity in plasma still represented unchanged radioligand. The results indicate that 6-pyridinyl radiohalogented analogues of WAY are new leads to radioligands for PET or SPET.
[羰基 - (11)C]WAY - 100635([(11)C]WAY)是一种已确立的放射性配体,用于通过正电子发射断层扫描(PET)在活体动物和人类中研究脑血清素(1A)(5 - HT(1A))受体。人们认识到需要开发用于5 - HT(1A)受体的卤化配体,要么用半衰期更长的氟 - 18进行标记以用于PET更广泛的应用,要么用碘 - 123进行标记以用于单光子发射断层扫描(SPET)。在此,我们使用放射自显影和PET来评估WAY的两种新的卤化类似物,即6BPWAY和6FPWAY [N - (2 - (1 - (4 - (2 - 甲氧基苯基) - 哌嗪基)乙基)) - N - (2 - (6 - 溴 - /氟 - 吡啶基))环己烷甲酰胺]作为潜在的放射性配体,最初使用碳 - 11作为放射性标记。用[羰基 - (11)C]环己烷甲酰氯对相应的仲胺前体进行酰化反应,实现了6BPWAY和6FPWAY的碳 - 11标记。在用[(11)C]6BPWAY或[(11)C]6FPWAY孵育人脑冰冻切片后,在皮质区域和海马结构中观察到最高的放射性积累。两种放射性配体都具有高非特异性结合。静脉注射[(11)C]6BPWAY和[(11)C]6FPWAY后,猴脑中放射性迅速积累。在额叶和颞叶皮质以及中缝核中观察到高放射性积累,这些区域已知含有高密度的5 - HT(1A)受体。在峰值平衡时,[(11)C]6BPWAY和[(11)C]6FPWAY在富含受体的颞叶皮质与缺乏受体的小脑中的放射性比值分别为1.9(10分钟时)和3.0(20分钟时)。在高剂量未标记WAY的预处理实验中,额叶和颞叶皮质以及中缝核中的放射性水平降低到与小脑中相同的水平。[(11)C]6FPWAY的放射性代谢物出现的速率与[(11)C]WAY的相似,40分钟后血浆中17%的放射性由未变化的放射性配体代表。[(11)C]6BPWAY的放射性代谢物出现得要慢得多。注射后40分钟,血浆中45%的放射性仍代表未变化的放射性配体。结果表明,WAY的6 - 吡啶基放射性卤化类似物是PET或SPET放射性配体的新先导化合物。
