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使用差异标记的[11C]可卡因、[11C]去甲可卡因、[11C]苯甲酰芽子碱以及[11C]-和4'-[18F]氟可卡因进行研究,以探究[11C]可卡因代谢产物对狒狒脑PET图像的贡献程度。

Studies with differentially labeled [11C]cocaine, [11C]norcocaine, [11C]benzoylecgonine, and [11C]- and 4'-[18F]fluorococaine to probe the extent to which [11C]cocaine metabolites contribute to PET images of the baboon brain.

作者信息

Gatley S J, Yu D W, Fowler J S, MacGregor R R, Schlyer D J, Dewey S L, Wolf A P, Martin T, Shea C E, Volkow N D

机构信息

Department of Chemistry, Brookhaven National Laboratory, Upton, New York 11973.

出版信息

J Neurochem. 1994 Mar;62(3):1154-62. doi: 10.1046/j.1471-4159.1994.62031154.x.

DOI:10.1046/j.1471-4159.1994.62031154.x
PMID:8113802
Abstract

The psychostimulant drug of abuse, cocaine (benzoylecgonine methyl ester), is rapidly metabolized by cleavage of its two ester groups, to give benzoylecgonine (BE) and ecgonine methyl ester, and by N-demethylation, to give N-norcocaine (NC). The recent use of [N-methyl-11CH3]cocaine to image brain cocaine binding sites with positron emission tomography (PET) raises the question of whether PET images partially reflect the distribution and kinetics of labeled cocaine metabolites. We prepared [O-methyl-11CH3]cocaine by methylation of the sodium salt of BE with [11C]CH3I, and showed that PET baboon brain scans, as well as regional brain kinetics and plasma time-activity curves corrected for the presence of labeled metabolites, are nearly identical to those seen with [N-methyl-11CH3]cocaine. This strongly suggests that 11C metabolites do not significantly affect PET images, because the metabolite pattern is different for the two labeled forms of cocaine. In particular, nearly half the 11C in blood plasma at 30 min was [11C]CO2 when [N-methyl-11CH3]cocaine was administered, whereas [11C]CO2 was not formed from [O-methyl-11CH3]cocaine. Only a trace of [11C]NC was detected in plasma after [O-methyl-11CH3]cocaine administration. Nearly identical brain PET data were also obtained when 4'-[N-methyl-11CH3]fluorococaine and 4'-[18F]fluorococaine (prepared by nucleophilic aromatic substitution from [18F]fluoride- and 4'-nitrococaine) were compared with [N-methyl-11CH3]cocaine. In vitro assays with rat brain membranes showed that cocaine and 4'-fluorococaine were equipotent at the dopamine reuptake site, but that 4'-fluorococaine was about 100 times more potent at the 5-hydroxytryptamine reuptake site.(ABSTRACT TRUNCATED AT 250 WORDS)

摘要

滥用的精神刺激药物可卡因(苯甲酸芽子碱甲酯)通过其两个酯基的裂解迅速代谢,生成苯甲酸芽子碱(BE)和芽子碱甲酯,还通过N - 去甲基化生成去甲可卡因(NC)。最近使用[甲基 - 11C]可卡因通过正电子发射断层扫描(PET)对脑内可卡因结合位点进行成像,这引发了一个问题,即PET图像是否部分反映了标记可卡因代谢物的分布和动力学。我们通过用[11C]CH3I对BE的钠盐进行甲基化制备了[氧甲基 - 11C]可卡因,并表明PET狒狒脑部扫描以及针对标记代谢物存在情况校正后的区域脑动力学和血浆时间 - 活性曲线与用[甲基 - 11C]可卡因观察到的情况几乎相同。这有力地表明11C代谢物不会显著影响PET图像,因为两种标记形式的可卡因的代谢物模式不同。特别是,当给予[甲基 - 11C]可卡因时,30分钟时血浆中近一半的11C是[11C]CO2,而[氧甲基 - 11C]可卡因不会生成[11C]CO2。给予[氧甲基 - 11C]可卡因后,血浆中仅检测到微量的[11C]NC。当将4'-[甲基 - 11C]氟可卡因和4'-[18F]氟可卡因(通过亲核芳香取代由[18F]氟化物和4'-硝基可卡因制备)与[甲基 - 11C]可卡因进行比较时,也获得了几乎相同的脑部PET数据。用大鼠脑膜进行的体外试验表明,可卡因和4'-氟可卡因在多巴胺再摄取位点具有同等效力,但4'-氟可卡因在5 - 羟色胺再摄取位点的效力约强100倍。(摘要截断于250字)

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