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首页> 外文期刊>Journal of biological inorganic chemistry: JBIC: a publication of the Society of Biological Inorganic Chemistry >Synthesis and biological evaluation of new [Tc(N)(PS)]-based mixed-ligand compounds useful in the design of target-specific radiopharmaceuticals: The 2-methoxyphenylpiperazine dithiocarbamate derivatives as an example
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Synthesis and biological evaluation of new [Tc(N)(PS)]-based mixed-ligand compounds useful in the design of target-specific radiopharmaceuticals: The 2-methoxyphenylpiperazine dithiocarbamate derivatives as an example

机译:新型[Tc(N)(PS)]基混合配体化合物的合成和生物学评估,可用于设计目标特异性放射性药物:以2-甲氧基苯基哌嗪二硫代氨基甲酸酯衍生物为例

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This study presents the first application of a general procedure based on the use of the [Tc(N)Cl(PS)(PPh_3)] species (PS is an alkyl phosphinothiolate ligand) for the preparation of Tc(N) target-specific compounds. [Tc(N)Cl(PS)(PPh_3)] selectively reacts with an appropriate dithiocarbamate ligand (S∧Y) to give [Tc(N)(PS)(S ∧Y)] compounds. 1-(2-Methoxyphenyl)piperazine, which displays a potent and specific affinity for 5HT_(1A) receptors, was selected as a functional group and conjugated to the dithiocarbamate unit through different spacers (L n). [~((99m)Tc(N)(PS)(L ~n)] complexes were prepared in high yield (more than 90%). The chemical identity of ~(99m)Tc complexes was determined by high performance liquid chromatography comparison with the corresponding ~(99g)Tc complexes. All complexes were found to be inert toward transchelation with an excess of glutathione and cysteine. No notable biotransformation of the native compound into different species by the in vitro action of the serum and liver enzymes was shown. Nanomolar affinity for the 5HT_(1A) receptor was obtained for [~(99m)Tc(N)(PSiso)L~3] (IC_(50) = 1.5 nM); a reduction of the affinity was observed for the other complexes as a function of the shortening of the alkyl chain interposed between the dithiocarbamate and the pharmacophore. Negligible brain uptake was found from in vivo distribution data of [~(99m)Tc(N)(PSiso)L~3]. The key finding of this study is that the complexes maintained good affinity and selectivity for 5HT_(1A) receptors, and the IC50 value for [~(99g)Tc(N)(PSiso)L ~3] being comparable to the IC_(50) value found for WAY 100635. This result confirmed the possibility of preparing [~(99m)Tc(N) (PS)]-based target-specific compounds without affecting the affinity and selectivity of the bioactive molecules for the corresponding receptors.
机译:这项研究提出了基于使用[Tc(N)Cl(PS)(PPh_3)]种类(PS是烷基硫代磷酸烷基酯配体)的通用程序的首次应用,以制备Tc(N)目标特异性化合物。 [Tc(N)Cl(PS)(PPh_3)]与适当的二硫代氨基甲酸酯配体(S∧Y)选择性反应,得到[Tc(N)(PS)(S∧Y)]化合物。选择对5HT_(1A)受体显示有效和特定亲和力的1-(2-甲氧基苯基)哌嗪作为官能团,并通过不同的间隔基(L n)与二硫代氨基甲酸酯单元偶联。 [〜((99m)Tc(N)(PS)(L〜n)]配合物的制备产率高(大于90%),〜(99m)Tc配合物的化学特性通过高效液相色谱比较确定以及相应的〜(99g)Tc配合物,发现所有配合物对谷胱甘肽和半胱氨酸过量的转运都是惰性的,没有发现通过血清和肝酶的体外作用将天然化合物生物转化为不同物种。 。对[〜(99m)Tc(N)(PSiso)L〜3](5_IC =(50)= 1.5 nM)获得了对5HT_(1A)受体的纳摩尔摩尔亲和力;观察到对其他配合物的亲和力降低根据[〜(99m)Tc(N)(PSiso)L〜3]的体内分布数据,发现脑内摄取量可忽略不计,这取决于二硫代氨基甲酸酯和药效团之间的烷基链缩短。这项研究的结果是,该配合物对5HT_(1A)受体保持了良好的亲和力和选择性,[〜(99 g)Tc(N)(PSiso)L〜3]与WAY 100635的IC_(50)值相当。该结果证实了制备基于[〜(99m)Tc(N)(PS)]的靶标的可能性。特异性化合物,而不会影响生物活性分子对相应受体的亲和力和选择性。

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