用于细菌感染单光子发射计算机断层显像(SPECT)成像的[¹¹¹In]标记二吡啶甲胺锌示踪剂的评估
Evaluation of [¹¹¹In]-labeled zinc-dipicolylamine tracers for SPECT imaging of bacterial infection.
作者信息
Rice Douglas R, Plaunt Adam J, Turkyilmaz Serhan, Smith Miles, Wang Yuzhen, Rusckowski Mary, Smith Bradley D
机构信息
Department of Chemistry and Biochemistry, University of Notre Dame, Notre Dame, IN, 46556, USA.
出版信息
Mol Imaging Biol. 2015 Apr;17(2):204-13. doi: 10.1007/s11307-014-0758-8.
PURPOSE
This study prepared three structurally related zinc-dipicolylamine (ZnDPA) tracers with [(111)In] labels and conducted biodistribution and single-photon emission computed tomography/computed tomography (SPECT/CT) imaging studies of a mouse leg infection model.
PROCEDURES
Two monovalent tracers, ZnDPA-[(111)In]DTPA and ZnDPA-[(111)In]DOTA, each with a single zinc-dipicolylamine targeting unit, and a divalent tracer, Bis(ZnDPA)-[(111)In]DTPA, with two zinc-dipicolylamine units were prepared. Organ biodistribution and SPECT and CT imaging studies were performed on living mice with a leg infection created by injection of clinically relevant Gram positive Streptococcus pyogenes. Fluorescent and luminescent Eu(3+)-labeled versions of these tracers were also prepared and used to measure relative affinity for the exterior membrane surface of bacterial cells and mimics of healthy mammalian cells.
RESULTS
All three (111)In-labeled radiotracers were prepared with a radiopurity of >90 %. The biodistribution studies showed that the two monovalent tracers were cleared from the body through the liver and kidney, with retained percentage injected dose for all organs of <8 % at 20 h and infected leg target to non-target ratio (T/NT) ratio of ≤3.0. Clearance of the divalent tracer from the bloodstream was slower and primarily through the liver, with a retained percentage injected dose for all organs <37 % at 20 h and T/NT ratio rising to 6.2 after 20 h. The SPECT/CT imaging indicated the same large difference in tracer pharmacokinetics and higher accumulation of the divalent tracer at the site of infection.
CONCLUSIONS
All three [(111)In]-ZnDPA tracers selectively targeted the site of a clinically relevant mouse infection model that could not be discerned by visual external inspection of the living animal. The highest target selectivity, observed with a divalent tracer equipped with two zinc-dipicolylamine targeting units, compares quite favorably with the imaging selectivities previously reported for other nuclear tracers that target bacterial cell surfaces. The tracer pharmacokinetics depended heavily on tracer molecular structure suggesting that it may be possible to rapidly fine tune the structural properties for optimized in vivo imaging performance and clinical translation.
目的
本研究制备了三种结构相关的[(111)In]标记的二吡啶甲胺锌(ZnDPA)示踪剂,并对小鼠腿部感染模型进行了生物分布和单光子发射计算机断层扫描/计算机断层扫描(SPECT/CT)成像研究。
程序
制备了两种单价示踪剂,即ZnDPA-[(111)In]DTPA和ZnDPA-[(111)In]DOTA,每种都有一个单一的二吡啶甲胺锌靶向单元,以及一种二价示踪剂双(ZnDPA)-[(111)In]DTPA,其有两个二吡啶甲胺锌单元。对通过注射临床相关的革兰氏阳性化脓性链球菌造成腿部感染的活体小鼠进行了器官生物分布以及SPECT和CT成像研究。还制备了这些示踪剂的荧光和发光Eu(3+)标记版本,并用于测量对细菌细胞外膜表面和健康哺乳动物细胞模拟物的相对亲和力。
结果
所有三种(111)In标记的放射性示踪剂的放射化学纯度均>90%。生物分布研究表明,两种单价示踪剂通过肝脏和肾脏从体内清除,在20小时时所有器官的注射剂量保留百分比<8%,感染腿部的靶与非靶比值(T/NT)≤3.0。二价示踪剂从血液中的清除较慢,主要通过肝脏,在20小时时所有器官的注射剂量保留百分比<37%,20小时后T/NT比值升至6.2。SPECT/CT成像显示示踪剂药代动力学存在同样大的差异,且二价示踪剂在感染部位的积累更高。
结论
所有三种[(111)In]-ZnDPA示踪剂均选择性地靶向临床相关小鼠感染模型的部位,而这在对活体动物进行外部视觉检查时无法辨别。配备两个二吡啶甲胺锌靶向单元的二价示踪剂具有最高的靶标选择性,与先前报道的其他靶向细菌细胞表面的核示踪剂的成像选择性相比非常有利。示踪剂药代动力学在很大程度上取决于示踪剂分子结构,这表明有可能快速微调结构特性以优化体内成像性能和临床转化。
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