f-[18F]氟乙醇和 3-[18F]氟丙醇:简便的制备方法、在小鼠体内的分布,以及它们作为亲核试剂在 [18F]氟烷基芳基酯和醚 PET 示踪剂合成中的应用。
f-[18F]fluoroethanol and 3-[18F]fluoropropanol: facile preparation, biodistribution in mice, and their application as nucleophiles in the synthesis of [18F]fluoroalkyl aryl ester and ether PET tracers.
机构信息
Department of Molecular Oncology, BC Cancer Agency, Vancouver, BC, Canada V5Z1L3.
出版信息
Nucl Med Biol. 2013 Aug;40(6):850-7. doi: 10.1016/j.nucmedbio.2013.04.009. Epub 2013 Jun 14.
INTRODUCTION
2-[(18)F]Fluoroethoxy and 3-[(18)F]fluoropropoxy groups are common moieties in the structures of radiotracers used with positron emission tomography. The objectives of this study were (1) to develop an efficient one-step method for the preparation of 2-[(18)F]fluoroethanol (2-[(18)F]FEtOH) and 3-[(18)F]fluoropropanol (3-[(18)F]FPrOH); (2) to demonstrate the feasibility of using 2-[(18)F]FEtOH as a nucleophile for the synthesis of 2-[(18)F]fluoroethyl aryl esters and ethers; and (3) to determine the biodistribution profiles of 2-[(18)F]FEtOH and 3-[(18)F]FPrOH in mice.
METHODS
2-[(18)F]FEtOH and 3-[(18)F]FPrOH were prepared by reacting n-Bu4N[(18)F]F with ethylene carbonate and 1,3-dioxan-2-one, respectively, in diethylene glycol at 165°C and purified by distillation. 2-[(18)F]fluoroethyl 4-fluorobenzoate and 1-(2-[(18)F]fluoroethoxy)-4-nitrobenzene were prepared by coupling 2-[(18)F]FEtOH with 4-fluorobenzoyl chloride and 1-fluoro-4-nitrobenzene, respectively. Biodistribution and PET/CT imaging studies of 2-[(18)F]FEtOH and 3-[(18)F]FPrOH were performed in normal female Balb/C mice.
RESULTS
The preparation of 2-[(18)F]FEtOH and 3-[(18)F]FPrOH took 60 min, and their decay-corrected yields were 88.6 ± 2.0% (n = 9) and 65.6 ± 10.2% (n = 5), respectively. The decay-corrected yields for the preparation of 2-[(18)F]fluoroethyl 4-fluorobenzoate and 1-(2-[(18)F]fluoroethoxy)-4-nitrobenzene were 36.1 ± 5.4% (n = 3) and 27.7 ± 10.7% (n = 3), respectively. Imaging/biodistribution studies in mice using 2-[(18)F]FEtOH showed high initial radioactivity accumulation in all major organs followed by very slow clearance. On the contrary, by using 3-[(18)F]FPrOH, radioactivity accumulated in all major organs was cleared rapidly, but massive in vivo defluorination (31.3 ± 9.57%ID/g in bone at 1h post-injection) was observed.
CONCLUSIONS
Using 2-[(18)F]FEtOH/3-[(18)F]FPrOH as a nucleophile is a competitive new strategy for the synthesis of 2-[(18)F]fluoroethyl/3-[(18)F]fluoropropyl aryl esters and ethers. Our biodistribution data emphasize the importance of in vivo stability of PET tracers containing a 2-[(18)F]fluoroethyl or 3-[(18)F]fluoropropyl group due to high background and high bone uptake resulting from 2-[(18)F]FEtOH and 3-[(18)F]FPrOH, respectively. This is especially important for their aryl ester derivatives which are prone to in vivo hydrolysis.
简介
2-[(18)F]氟乙氧基和 3-[(18)F]氟丙氧基是正电子发射断层扫描中使用的放射性示踪剂结构中的常见部分。本研究的目的是:(1)开发一种高效的一步法制备 2-[(18)F]氟乙醇(2-[(18)F]FEtOH)和 3-[(18)F]氟丙醇(3-[(18)F]FPrOH)的方法;(2)证明使用 2-[(18)F]FEtOH 作为亲核试剂合成 2-[(18)F]氟乙基芳基酯和醚的可行性;(3)确定 2-[(18)F]FEtOH 和 3-[(18)F]FPrOH 在小鼠体内的生物分布特征。
方法
在 165°C 的二甘醇中,分别用 n-Bu4N[(18)F]F 与碳酸亚乙酯和 1,3-二氧杂环戊酮反应,制备 2-[(18)F]FEtOH 和 3-[(18)F]FPrOH,并通过蒸馏进行纯化。通过与 4-氟苯甲酰氯和 1-氟-4-硝基苯反应,分别制备 2-[(18)F]氟乙基 4-氟苯甲酸酯和 1-(2-[(18)F]氟乙氧基)-4-硝基苯。在正常雌性 Balb/C 小鼠中进行了 2-[(18)F]FEtOH 和 3-[(18)F]FPrOH 的生物分布和 PET/CT 成像研究。
结果
2-[(18)F]FEtOH 和 3-[(18)F]FPrOH 的制备时间为 60 分钟,其放射性衰变校正产率分别为 88.6±2.0%(n=9)和 65.6±10.2%(n=5)。2-[(18)F]氟乙基 4-氟苯甲酸酯和 1-(2-[(18)F]氟乙氧基)-4-硝基苯的放射性衰变校正产率分别为 36.1±5.4%(n=3)和 27.7±10.7%(n=3)。使用 2-[(18)F]FEtOH 在小鼠中的成像/生物分布研究表明,所有主要器官的初始放射性摄取都很高,随后清除速度非常缓慢。相反,使用 3-[(18)F]FPrOH 时,所有主要器官的放射性摄取都迅速清除,但观察到大量体内脱氟(1h 时骨骼中的放射性为 31.3±9.57%ID/g)。
结论
使用 2-[(18)F]FEtOH/3-[(18)F]FPrOH 作为亲核试剂是合成 2-[(18)F]氟乙基/3-[(18)F]氟丙基芳基酯和醚的一种有竞争力的新策略。我们的生物分布数据强调了由于 2-[(18)F]FEtOH 和 3-[(18)F]FPrOH 分别导致高背景和高骨摄取,含有 2-[(18)F]氟乙基或 3-[(18)F]氟丙基的 PET 示踪剂的体内稳定性的重要性,对于其芳基酯衍生物尤其重要,因为它们容易在体内水解。
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