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通过正电子发射断层扫描合成并评估两种用于雌激素受体 β 成像的试剂:低丰度靶标 PET 成像中的挑战。

Synthesis and biological evaluation of two agents for imaging estrogen receptor β by positron emission tomography: challenges in PET imaging of a low abundance target.

机构信息

Department of Chemistry, University of Illinois at Urbana-Champaign, 600 South Mathews Avenue, Urbana, IL, 61801, USA.

出版信息

Nucl Med Biol. 2012 Nov;39(8):1105-16. doi: 10.1016/j.nucmedbio.2012.05.011. Epub 2012 Jun 30.

DOI:10.1016/j.nucmedbio.2012.05.011
PMID:22749433
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3465515/
Abstract

INTRODUCTION

Independent measurement of the levels of both the estrogen receptors, ERα and ERβ, in breast cancer could improve prediction of benefit from endocrine therapies. While ERα levels can be measured by positron emission tomography (PET) using 16α-[(18)F]fluoroestradiol (FES), no effective agent for imaging ERβ by PET has yet been reported.

METHODS

We have prepared the fluorine-18 labeled form of 8β-(2-fluoroethyl)estradiol (8BFEE(2)), an analog of an ERβ-selective steroidal estrogen, 8β-vinylestradiol; efficient incorporation of fluorine-18 was achieved, but required very vigorous conditions. We have examined the biodistribution of this compound, as well as of Br-041, an analog of a known non-steroidal ERβ-selective ligand (ERB-041), labeled with bromine-76. Studies were done in immature female rodents, with various pharmacological and endocrine perturbations to assess ERβ selectivity of uptake.

RESULTS

Little evidence of ERβ-mediated uptake was observed with either [(18)F]8BFEE(2) or [(76)Br]Br-041. Attempts to increase the ERβ content of target tissues were not effective and failed to improve biodistribution selectivity.

CONCLUSIONS

Because on an absolute basis level, ERβ levels are low in all target tissues, these studies have highlighted the need to develop improved in vivo models for evaluating ERβ-selective radiopharmaceuticals for use in PET imaging. Genetically engineered breast cancer cells that are being developed to express either ERα or ERβ in a regulated manner, grown as xenografts in immune-compromised mice, could prove useful for future studies to develop ER subtype-selective radiopharmaceuticals.

摘要

简介

独立测量乳腺癌中雌激素受体(ERα 和 ERβ)的水平可以提高内分泌治疗获益的预测能力。虽然可以通过正电子发射断层扫描(PET)使用 16α-[(18)F]氟雌二醇(FES)测量 ERα 水平,但尚未报道用于通过 PET 成像 ERβ 的有效试剂。

方法

我们已经制备了雌激素受体β选择性甾体雌激素 8β-(2-氟乙基)雌二醇(8BFEE(2))的氟-18 标记形式的类似物;实现了氟-18 的有效掺入,但需要非常剧烈的条件。我们已经研究了这种化合物的生物分布,以及溴-76 标记的已知非甾体雌激素受体β选择性配体(ERB-041)类似物 Br-041 的生物分布。在未成熟雌性啮齿动物中进行了研究,进行了各种药理学和内分泌干扰以评估摄取的雌激素受体β选择性。

结果

在用 [(18)F]8BFEE(2)或 [(76)Br]Br-041 进行的研究中,几乎没有观察到雌激素受体β介导的摄取的证据。增加靶组织中雌激素受体β含量的尝试没有效果,并且未能改善生物分布的选择性。

结论

由于在绝对基础水平上,所有靶组织中的雌激素受体β水平都较低,这些研究强调需要开发改进的体内模型来评估用于 PET 成像的雌激素受体β选择性放射性药物。正在开发的以调节方式表达雌激素受体α或雌激素受体β的基因工程乳腺癌细胞,作为异种移植物在免疫缺陷小鼠中生长,可以为未来开发雌激素受体亚型选择性放射性药物的研究提供有用的工具。

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