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同时监测蛋白质靶标和酶活性的双放射性标记肽的初步表征。

Initial characterization of a dually radiolabeled peptide for simultaneous monitoring of protein targets and enzymatic activity.

机构信息

Mallinckrodt Institute of Radiology, Washington University School of Medicine, Box 8225, St Louis, MO 63110, USA.

出版信息

Nucl Med Biol. 2013 Feb;40(2):190-6. doi: 10.1016/j.nucmedbio.2012.10.003. Epub 2012 Nov 12.

Abstract

OBJECTIVE

The goal of this study was to develop dually radiolabeled peptides for simultaneous imaging of cancer cell localization by targeting the α(v)β(3) integrin and their pathophysiology by targeting the activity of the proteolytic enzyme MMP2, involved in the metastatic process.

METHODS

A hybrid peptide c(RGDfE)K(DOTA)PLGVRY containing an RGD motif for binding to the α(v)β(3)integrin, a metal chelator (DOTA) for radiolabeling with [(64)Cu], and the MMP2 substrate cleavage sequence PLGVRY with terminal tyrosine for labeling with [(123)I] was synthesized, labeled with [(64)Cu] and [(123)I], and evaluated in vitro as a potential imaging agent.

RESULTS

The peptide was synthesized and labeled with [(64)Cu] and [(123)I] with 300 and 40 μCi/μg (542 and 72.2 mCi/μmol) specific activities, respectively, and radiochemical purity of >98%. c(RGDfE)K(DOTA)PLGVRY demonstrated high affinity for α(v)β(3) integrins (Kd=83.4+13.2 nM) in both substrate competition and cell binding assays. c(RGDfE)K(DOTA)PLGVRY peptide, but not the scrambled version, c(RGDfE)K(DOTA)GRPLVY was specifically cleaved by MMP2.

CONCLUSIONS

These results demonstrate the feasibility of developing dually radiolabeled peptides for the simultaneous imaging of cancer cells and their pathophysiologic activity.

摘要

目的

本研究旨在开发双重放射性标记肽,用于通过靶向 α(v)β(3)整合素来同时成像癌细胞定位,并通过靶向参与转移过程的蛋白水解酶 MMP2 的活性来对其病理生理学进行成像。

方法

合成了一种含有结合 α(v)β(3)整合素的 RGD 基序、金属螯合剂 (DOTA) 用于标记 [(64)Cu] 以及 MMP2 底物裂解序列 PLGVRY 末端酪氨酸用于标记 [(123)I]的杂合肽 c(RGDfE)K(DOTA)PLGVRY,并对其进行了体外评估,作为一种潜在的成像剂。

结果

该肽与 [(64)Cu] 和 [(123)I] 分别以 300 和 40 μCi/μg(542 和 72.2 mCi/μmol)的比活度进行了合成和标记,放射化学纯度>98%。c(RGDfE)K(DOTA)PLGVRY 在底物竞争和细胞结合测定中均表现出对 α(v)β(3)整合素的高亲和力(Kd=83.4+13.2 nM)。c(RGDfE)K(DOTA)PLGVRY 肽而非乱序肽 c(RGDfE)K(DOTA)GRPLVY 可被 MMP2 特异性切割。

结论

这些结果表明,开发用于同时成像癌细胞及其病理生理活性的双重放射性标记肽是可行的。

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