- Synthesis and evaluation of fluoroethyl cyclofenil analogs: Models for potential estrogen receptor imaging agent
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Cyclofenil analogs (2a-2f) and their fluorine-containing derivatives (3a-3f) were synthesized and evaluated as candidate ligands for positron emission tomography (PET) imaging of estrogen receptors. Most of them show relatively high binding affinities comparable with estradiol (E2). (4-Fluoroethoxyphenyl)-(4-hydroxyphenyl) methylenecyclopentane (3a) showed both the highest binding affinity for ERs (88.6 for ERβ, 13.8 for ERα) and highest β/α ratio (β/α for 6.4-fold). The radioactive compound [18F]3a was prepared via displacement of the corresponding mesylate precursor 4 with [18F]fluoride (18F: β+; 96.7%, T1/2 = 109.8 min). The biodistribution studies in immature female SD rats demonstrated that the uptake in the uterus and ovaries were 1.358 ± 0.089% ID/g, 1.439 ± 0.214% ID/g, respectively, both of the ratios of uterus/blood and ovaries/blood was less than 2:1. Micro-PET imaging of immature female SD rats has also been reported.
- Zhu, Hua,Yang, Zhi,Lin, Jian-Guo,Luo, Shi-Neng,Shen, Yu-Mei
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- Practical synthesis of FEt-penta-cyclofenil and its derivatives for potential PET imaging
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Generally, FEt-penta-cyclofenil and its derivatives have greater relative binding affinity to estradiol receptors than estradiol. (4-Fluoroethoxyphenyl)- (4'-hydroxyphenyl) methylenecyclopentane and its derivatives were synthesized for potential radioactive image agents, and their structures were characterized by ultraviolet, infrared, 1H NMR, 19F NMR, and high-resolution mass spectrometry. Copyright
- Zhu, Hua,Huang, Liliang,Xu, Xiaoping,Shen, Yu-Mei
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experimental part
p. 3322 - 3331
(2011/01/04)
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