Ogawa Kazuma, Mukai Takahiro, Arano Yasushi, Ono Masahiro, Hanaoka Hirofumi, Ishino Seigo, Hashimoto Kazuyuki, Nishimura Hiroshi, Saji Hideo
Department of Patho-Functional Bioanalysis, Graduate School of Pharmaceutical Sciences, Kyoto University, Yoshida Shimoadachi-cho, Sakyo-ku, Kyoto 606-8501, Japan.
Bioconjug Chem. 2005 Jul-Aug;16(4):751-7. doi: 10.1021/bc040249w.
Rhenium-186-1-hydroxyethylidene-1,1-diphosphonate (186Re-HEDP) has been used for the palliation of metastatic bone pain. Delayed blood clearance and high gastric uptake of radioactivity have been observed upon injection, due to the instability of (186)Re-HEDP in vivo. In this study, on the basis of the concept of bifunctional radiopharmaceuticals, we designed a stable 186Re-mercaptoacetylglycylglycylglycine (MAG3) complex-conjugated bisphosphonate, [[[[(4-hydroxy-4,4-diphosphonobutyl)carbamoylmethyl]carbamoylmethyl]carbamoylmethyl]carbamoylmethanethiolate]oxorhenium(V) (186Re-MAG3-HBP). As a precursor, [1-hydroxy-1-phosphono-4-[2-[2-[2-(2-tritylmercaptoacetylamino)acetylamino]acetylamino]acetylamino]butyl]phosphonic acid (Tr-MAG3-HBP) was synthesized by the conjugation of N-[(tritylmercapto)acetyl]glycylglycylglycine (Tr-MAG3) with the bisphosphonate analogue. After deprotection of the trityl group of Tr-MAG3-HBP, 186Re-labeling was performed by reacting 186ReO4- with SnCl2 in citrate buffer. After purification by HPLC, 186Re-MAG3-HBP showed a radiochemical purity of over 95%. To compare the stability of 186Re-MAG3-HBP and 186Re-HEDP, these (186)Re complexes were incubated in phosphate buffer. No measurable decomposition of 186Re-MAG3-HBP occurred over a 24-h period, while only approximately 30% of 186Re-HEDP remained intact 24 h postincubation. In biodistribution experiments, the radioactivity level of 186Re-MAG3-HBP in bone was significantly higher than that of (186)Re-HEDP. Blood clearance of 186Re-MAG3-HBP was faster than that of 186Re-HEDP. In addition, the gastric accumulation of 186Re-MAG3-HBP radioactivity was lower than that of 186Re-HEDP. In conclusion, 186Re-MAG3-HBP is expected to be a useful radiopharmaceutical for the palliation of metastatic bone pain.
铼-186-1-羟基亚乙基-1,1-二膦酸盐(186Re-HEDP)已被用于缓解转移性骨痛。注射后观察到血液清除延迟和胃部放射性摄取较高,这是由于186Re-HEDP在体内不稳定所致。在本研究中,基于双功能放射性药物的概念,我们设计了一种稳定的186Re-巯基乙酰甘氨酰甘氨酰甘氨酸(MAG3)复合物共轭双膦酸盐,[[[[(4-羟基-4,4-二膦酰丁基)氨基甲酰甲基]氨基甲酰甲基]氨基甲酰甲基]氨基甲酰甲烷硫醇盐]氧铼(V)(186Re-MAG3-HBP)。作为前体,通过将N-[(三苯甲基巯基)乙酰]甘氨酰甘氨酰甘氨酸(Tr-MAG3)与双膦酸盐类似物共轭合成了[1-羟基-1-膦酰基-4-[2-[2-[2-(2-三苯甲基巯基乙酰氨基)乙酰氨基]乙酰氨基]乙酰氨基]丁基]膦酸(Tr-MAG3-HBP)。在对Tr-MAG3-HBP的三苯甲基基团进行脱保护后,通过在柠檬酸盐缓冲液中使186ReO4-与SnCl2反应进行186Re标记。通过高效液相色谱法纯化后,186Re-MAG3-HBP的放射化学纯度超过95%。为了比较186Re-MAG3-HBP和186Re-HEDP的稳定性,将这些186Re复合物在磷酸盐缓冲液中孵育。在24小时内未观察到186Re-MAG3-HBP有可测量的分解,而孵育24小时后186Re-HEDP仅约30%保持完整。在生物分布实验中,186Re-MAG3-HBP在骨中的放射性水平明显高于186Re-HEDP。186Re-MAG3-HBP的血液清除速度比186Re-HEDP快。此外,186Re-MAG3-HBP的放射性在胃部的蓄积低于186Re-HEDP。总之,186Re-MAG3-HBP有望成为一种用于缓解转移性骨痛的有用放射性药物。
