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体内酶抑制作用改善了[177Lu]DOTA-GRP(13 - 27)在小鼠GRPR阳性肿瘤中的靶向性。

In vivo enzyme inhibition improves the targeting of [177Lu]DOTA-GRP(13-27) in GRPR-positive tumors in mice.

作者信息

Marsouvanidis Panteleimon J, Melis Marleen, de Blois Erik, Breeman Wout A P, Krenning Eric P, Maina Theodosia, Nock Berthold A, de Jong Marion

机构信息

1 Molecular Radiopharmacy, INRASTES, NSCR Demokritos , Athens, Greece .

出版信息

Cancer Biother Radiopharm. 2014 Nov;29(9):359-67. doi: 10.1089/cbr.2014.1706. Epub 2014 Oct 6.

DOI:10.1089/cbr.2014.1706
PMID:25286347
Abstract

INTRODUCTION

Gastrin-releasing peptide receptors (GRPR) and GRP-derived analogs have attracted attention due to high receptor expression in frequently occurring human neoplasia. The authors recently synthesized a series of GRPR-affine peptide analogs based on the 27-mer GRP and derivatized with the DOTA chelator at the N-terminus for (111)In-labeling. In this study, the authors evaluated the most promising from these series, DOTA-GRP(13-27), after radiolabeling with (177)Lu for future therapeutic applications. In addition, to improve in vivo stability of the peptide against in vivo degradation by the protease neutral endopeptidase (NEP), the authors coinjected [(177)Lu]DOTA-GRP(13-27) with the potent NEP inhibitor phosphoramidon (PA). The authors also aimed at reducing renal uptake by coadministration of lysine.

METHODS

In vivo stability studies were performed in Swiss albino mice. Biodistribution studies were conducted in NMRI nu/nu mice bearing prostate cancer (PC)-3 xenografts. Ex vivo autoradiography was performed using frozen sections from PC-3 xenografts and kidneys.

RESULTS AND DISCUSSION

Coadministration of PA significantly increased the percentage of intact radiopeptide in the mouse circulation. From biodistribution and ex vivo autoradiography studies, coadministration of both lysine and PA with [(177)Lu]DOTA-GRP(13-27) appeared to induce a clear improvement of tumor uptake as well as lower levels of renal radioactivity, causing a promising ninefold increase in tumor/kidney ratios.

摘要

引言

胃泌素释放肽受体(GRPR)和源自胃泌素释放肽(GRP)的类似物因在常见人类肿瘤中高表达而备受关注。作者最近基于27肽的GRP合成了一系列GRPR亲和肽类似物,并在N端用DOTA螯合剂进行衍生化以便进行铟-111标记。在本研究中,作者对这些系列中最有前景的DOTA-GRP(13 - 27)进行了镥-177放射性标记,用于未来的治疗应用评估。此外,为提高该肽在体内对蛋白酶中性内肽酶(NEP)体内降解的稳定性,作者将[(177)Lu]DOTA-GRP(13 - 27)与强效NEP抑制剂磷酰胺素(PA)共同注射。作者还旨在通过同时给予赖氨酸来减少肾脏摄取。

方法

在瑞士白化小鼠中进行体内稳定性研究。在携带前列腺癌(PC)-3异种移植瘤的NMRI nu/nu小鼠中进行生物分布研究。使用PC-3异种移植瘤和肾脏的冰冻切片进行离体放射自显影。

结果与讨论

共同注射PA显著增加了小鼠循环中完整放射性肽的百分比。从生物分布和离体放射自显影研究来看,将赖氨酸和PA与[(177)Lu]DOTA-GRP(13 - 27)共同给药似乎能明显提高肿瘤摄取以及降低肾脏放射性水平,使肿瘤/肾脏比值有望增加9倍。

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