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Para-氯-2-[F]氟乙基依托咪酯:一种用于肾上腺皮质成像的有前途的新型 PET 放射性示踪剂。

Para-chloro-2-[F]fluoroethyl-etomidate: A promising new PET radiotracer for adrenocortical imaging.

机构信息

Department of Surgical Sciences, Uppsala University.

Medicinal Chemistry and Uppsala University.

出版信息

Int J Med Sci. 2021 Mar 21;18(10):2187-2196. doi: 10.7150/ijms.51206. eCollection 2021.

DOI:10.7150/ijms.51206
PMID:33859526
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8040415/
Abstract

[C]Metomidate ([C]MTO), the methyl ester analogue of etomidate, was developed as a positron emission tomography (PET) radiotracer for adrenocortical tumours and has also been suggested for imaging in primary aldosteronism (PA). A disadvantage of [C]MTO is the rather high non-specific binding in the liver, which impacts both visualization and quantification of the uptake in the right adrenal gland. Furthermore, the short 20-minute half-life of carbon-11 is a logistic challenge in the clinical setting. The aim of this study was to further evaluate the previously published fluorine-18 (T=109.5 min) etomidate analogue, para-chloro-2-[F]fluoroethyl etomidate; [F]CETO, as an adrenal PET tracer. experiments included autoradiography on human and cynomolgus monkey (non-human primate, NHP) tissues and binding studies on adrenal tissue from NHPs. studies with [F]CETO in mice, rats and NHP, using PET and CT/MRI, assessed biodistribution and binding specificity in comparison to [C]MTO. The binding of [F]CETO in the normal adrenal cortex, as well as in human adrenocortical adenomas and adrenocortical carcinomas, was shown to be specific, both (in humans) and (in rats and NHP) with an K of 0.66 nM. Non-specific uptake of [F]CETO in NHP liver was found to be low compared to that of [C]MTO. High specificity of [F]CETO to the adrenal cortex was demonstrated, with binding properties qualitatively surpassing those of [C]MTO. Non-specific binding to the liver was significantly lower than that of [C]MTO. [F]CETO is a promising new PET tracer for imaging of adrenocortical disease and should be evaluated further in humans.

摘要

美托咪酯(MTO)是依托咪酯的甲酯类似物,被开发为用于肾上腺肿瘤的正电子发射断层扫描(PET)示踪剂,也被提议用于原发性醛固酮增多症(PA)的成像。[C]MTO 的一个缺点是在肝脏中存在相当高的非特异性结合,这会影响右侧肾上腺摄取的可视化和定量。此外,碳-11 的半衰期仅为 20 分钟,这在临床环境中是一个后勤挑战。本研究的目的是进一步评估先前发表的氟-18(T=109.5 分钟)依托咪酯类似物,对氯-2-[F]氟乙基依托咪酯;[F]CETO,作为一种肾上腺 PET 示踪剂。实验包括在人类和食蟹猴(非人类灵长类动物,NHP)组织上进行放射性自显影以及在 NHP 肾上腺组织上进行结合研究。使用 PET 和 CT/MRI 在小鼠、大鼠和 NHP 中进行的[F]CETO 研究,评估了与[C]MTO 相比的生物分布和结合特异性。[F]CETO 在正常肾上腺皮质中的结合,以及在人类肾上腺皮质腺瘤和肾上腺皮质癌中的结合,被证明是特异性的,无论是在人类还是在大鼠和 NHP 中,其 Kd 值为 0.66 nM。与[C]MTO 相比,NHP 肝脏中[F]CETO 的非特异性摄取被发现较低。[F]CETO 对肾上腺皮质具有高度特异性,其结合特性在质量上超过了[C]MTO。与[C]MTO 相比,肝脏的非特异性结合明显较低。[F]CETO 是一种有前途的新的 PET 示踪剂,可用于成像肾上腺皮质疾病,应在人类中进一步评估。

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