Meegalla S, Plössl K, Kung M P, Chumpradit S, Stevenson D A, Frederick D, Kung H F
Department of Radiology, University of Pennsylvania, Philadelphia 19104, USA.
Bioconjug Chem. 1996 Jul-Aug;7(4):421-9. doi: 10.1021/bc960029l.
The development of novel Tc-9m-labeled tropane derivatives as dopamine transporter imaging agents is reported. A series of neutral and lipophilic conjugated complexes, containing N-(alkylthiolato)-tropane, aminobis(ethylthiolato), and a [99mTc]TcO3+ center core, were prepared and evaluated as central nervous system (CNS) dopamine transporter imaging agents in rats. One of the compounds, [99mTC]technetium, [methyl 3-(4-chlorophenyl)-8-(2-mercaptoethyl-8-azabicyclo [3.2.1]octane-2-carboxylato-S][[2,2'-(methylimino)bis[eth anethiolato]] (2-)-N,S,S']oxo (25), displayed low initial uptake in rat brain (0.1% at 2 min post i.v. injection); the striatal/cerebellar (ST/CB) ratio reached 3.50 at 60 min after an i.v. injection. The specific uptake can be blocked by pretreating rats with a competing dopamine transporter binding agent, beta-CIT (RTI-55, N-methyl-2 beta-carbomethoxy-3 beta-(4-iodophenyl)tropane; i.v. 1 mg/kg), which reduced the regional brain uptake ratio (ST/CB) to 1.0. In contrast, the specific uptake in striatum was not affected by pretreating rats with a noncompeting ligand, haldol (i.v., 1 mg/kg). In vitro autoradiography of rat brain sections exhibited elevated labeling in striatum, major islands of Calleja, and olfactory tubercle regions, where dopamine neurons are known to be concentrated. This series of compounds is the first example of technetium-99m labeled CNS receptor-specific imaging agents and may provide a convenient source of short-lived imaging agents for routine diagnosis of CNS abnormality in conjunction with single photon emission computed tomography.
报道了新型锝-99m标记的托烷衍生物作为多巴胺转运体显像剂的研发情况。制备了一系列含有N-(烷硫基)托烷、氨基双(乙硫基)和[99mTc]TcO3+中心核的中性亲脂性共轭配合物,并在大鼠中作为中枢神经系统(CNS)多巴胺转运体显像剂进行了评估。其中一种化合物,[99mTc]锝,[甲基3-(4-氯苯基)-8-(2-巯基乙基)-8-氮杂双环[3.2.1]辛烷-2-羧基-S][[2,2'-(甲基亚氨基)双[乙硫醇]] (2-)-N,S,S']氧代(25),在大鼠脑中的初始摄取量较低(静脉注射后2分钟时为0.1%);静脉注射后60分钟时纹状体/小脑(ST/CB)比值达到3.50。用竞争性多巴胺转运体结合剂β-CIT(RTI-55,N-甲基-2β-甲氧羰基-3β-(4-碘苯基)托烷;静脉注射1mg/kg)预处理大鼠可阻断特异性摄取,这使脑区摄取比值(ST/CB)降至1.0。相比之下,用非竞争性配体氟哌啶醇(静脉注射,1mg/kg)预处理大鼠对纹状体中的特异性摄取没有影响。大鼠脑切片的体外放射自显影显示,在纹状体、主要的Calleja岛和嗅结节区域标记增强,已知多巴胺神经元集中在这些区域。这一系列化合物是锝-99m标记中枢神经系统受体特异性显像剂的首个实例,可能为结合单光子发射计算机断层扫描对中枢神经系统异常进行常规诊断提供方便的短寿命显像剂来源。
