一种用于使用(90)钇或(177)镥进行分子靶向放射治疗的新型双功能NETA螯合物的合成与评估。
Synthesis and evaluation of a new bifunctional NETA chelate for molecular targeted radiotherapy using(90)Y or(177)Lu.
作者信息
Kang Chi Soo, Chen Yunwei, Lee Hyunbeom, Liu Dijie, Sun Xiang, Kweon Junghun, Lewis Michael R, Chong Hyun-Soon
机构信息
Chemistry Division, Biological and Chemical Sciences Department, Illinois Institute of Technology, Chicago, IL.
Department of Veterinary Medicine and Surgery, University of Missouri, Columbia, MO.
出版信息
Nucl Med Biol. 2015 Mar;42(3):242-9. doi: 10.1016/j.nucmedbio.2014.10.004. Epub 2014 Oct 20.
INTRODUCTION
Therapeutic potential of β-emitting cytotoxic radionuclides (90)Y and (177)Lu has been demonstrated in numerous preclinical and clinical trials. A bifunctional chelate that can effectively complex with the radioisotopes is a critical component for molecular targeted radiotherapy (90)Y and (177)Lu. A new bifunctional chelate 5p-C-NETA with a relatively long alkyl spacer between the chelating backbone and the functional unit for conjugation to a tumor targeting moiety was synthesized. 5p-C-NETA was conjugated to a model targeting moiety, a cyclic Arg-Gly-Asp-D-Tyr-Lys (RGDyK) peptide binding integrin αvβ3 protein overexpressed on various cancers. 5p-C-NETA was conjugated to c(RGDyK) peptide and evaluated for potential use in molecular targeted radiotherapy of (90)Y and (177)Lu.
METHODS
5p-C-NETA conjugated with c(RGDyK) was evaluated in vitro for radiolabeling, serum stability, binding affinity, and the result of the in vitro studies of 5p-C-NETA-c(RGDyK) was compared to that of 3p-C-NETA-c(RGDyK). (177)Lu-5p-C-NETA-c(RGDyK) was further evaluated for in vivo biodistribution using gliobastoma bearing mice.
RESULT
The new chelate rapidly and tightly bound to a cytotoxic radioisotope for cancer therapy, (90)Y or (177)Lu with excellent radiolabeling efficiency and maximum specific activity under mild condition (>99%, RT, <1 min). (90)Y- and (177)Lu-radiolabeled complexes of the new chelator remained stable in human serum without any loss of the radiolanthanide for 14 days. Introduction of the tumor targeting RGD moiety to the new chelator made little impact on complexation kinetics and stability with (90)Y or (177)Lu. (177)Lu-radiolabeled 5p-C-NETA-c(RGDyK) conjugate was shown to target tumors in mice and produced a favorable in vivo stability profile.
CONCLUSION
The results of in vitro and in vivo evaluation suggest that 5p-C-NETA is an effective bifunctional chelate of (90)Y and (177)Lu that can be applied for generation of versatile molecular targeted radiopharmaceuticals.
引言
发射β射线的细胞毒性放射性核素钇-90(90Y)和镥-177(177Lu)的治疗潜力已在众多临床前和临床试验中得到证实。一种能与放射性同位素有效络合的双功能螯合剂是分子靶向放疗中90Y和177Lu的关键组成部分。合成了一种新型双功能螯合剂5p-C-NETA,其螯合主链与用于偶联肿瘤靶向部分的功能单元之间有一个相对较长的烷基间隔基。5p-C-NETA与一种模型靶向部分,即环状精氨酸-甘氨酸-天冬氨酸-D-酪氨酸-赖氨酸(RGDyK)肽偶联,该肽可结合在多种癌症上过度表达的整合素αvβ3蛋白。将5p-C-NETA与环(RGDyK)肽偶联,并评估其在90Y和177Lu分子靶向放疗中的潜在用途。
方法
对与环(RGDyK)偶联的5p-C-NETA进行体外放射性标记、血清稳定性、结合亲和力评估,并将5p-C-NETA-环(RGDyK)的体外研究结果与3p-C-NETA-环(RGDyK)的结果进行比较。使用荷胶质母细胞瘤小鼠对177Lu-5p-C-NETA-环(RGDyK)进行体内生物分布进一步评估。
结果
这种新型螯合剂能在温和条件下(>99%,室温,<1分钟)快速且紧密地结合用于癌症治疗的细胞毒性放射性同位素90Y或177Lu,具有优异的放射性标记效率和最大比活度。新型螯合剂的90Y和177Lu放射性标记复合物在人血清中保持稳定,14天内放射性镧系元素无任何损失。将肿瘤靶向RGD部分引入新型螯合剂对与90Y或177Lu的络合动力学和稳定性影响不大。177Lu放射性标记的5p-C-NETA-环(RGDyK)偶联物在小鼠体内显示出靶向肿瘤的特性,并呈现出良好的体内稳定性。
结论
体外和体内评估结果表明,5p-C-NETA是90Y和177Lu的有效双功能螯合剂,可用于制备通用的分子靶向放射性药物。
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