将物质P（5-11）标记为用于胶质瘤治疗的潜在放射性药物。

At labeled substance P (5-11) as potential radiopharmaceutical for glioma treatment.

作者信息

Lyczko Monika, Pruszynski Marek, Majkowska-Pilip Agnieszka, Lyczko Krzysztof, Was Bogdan, Meczynska-Wielgosz Sylwia, Kruszewski Marcin, Szkliniarz Katarzyna, Jastrzebski Jerzy, Stolarz Anna, Bilewicz Aleksander

机构信息

Centre of Radiochemistry and Nuclear Chemistry, Institute of Nuclear Chemistry and Technology, 03-195 Warsaw, Poland.

出版信息

Nucl Med Biol. 2017 Oct;53:1-8. doi: 10.1016/j.nucmedbio.2017.05.008. Epub 2017 May 25.

DOI:10.1016/j.nucmedbio.2017.05.008

PMID:28683361

Abstract

INTRODUCTION

The purposes of the present work were to label substance P (5-11) with At using a rhodium(III) complex with a bifunctional ligand-2-(1,5,9,13-tetrathiacyclohexadecan-3-yloxy)acetic acid ([16aneS]-COOH) and to assess the in vitro stability and toxicity of the obtained radiobioconjugate.

METHODS

Two approaches were evaluated to obtain I/At-Rh[16aneS]-SP radiobioconjugates, based on 2-step and 1-step syntheses. In the first method I/At-Rh[16aneS]-COOH complexes were obtained that required further coupling to a biomolecule. In the second approach, the bioconjugate [16aneS]-SP was synthesized and further labeled with I and At through the utilization of a Rh(III) metal cation bridge. The synthesized compounds were analyzed by HPLC, TLC and paper electrophoresis.

RESULTS

The I/At-Rh[16aneS]-COOH complexes were obtained in high yield and possessed good stability in PBS and CSF. Preliminary studies on coupling of I-Rh[16aneS]-COOH to substance P (5-11) in 2-step synthesis showed that this procedure was too long with respect to At half-life, prompting us to improve it by finally using a 1-step synthesis. This strategy not only shortened the labeling time, but also increased final yield of I/At-Rh[16aneS]-SP radiobioconjugates. The stability of both compounds in PBS and CSF was high. Toxicity studies with the At-Rh[16aneS]-SP demonstrated that radiobioconjugate significantly reduced T98G cell viability in a dose dependent manner reaching 20% of survival at the highest radioactivity 1200kBq/mL.

CONCLUSIONS

The radiobioconjugate At-Rh[16aneS]-SP revealed its potential in killing glioma T98G cells during in vitro studies; therefore further animal studies to are required to determine its in vivo stability and treatment potential in normal and xenografted mice.

摘要

引言

本研究的目的是使用一种带有双功能配体2-(1,5,9,13-四硫杂环十六烷-3-基氧基)乙酸([16aneS]-COOH)的铑(III)配合物对P物质(5-11)进行砹标记，并评估所得放射生物共轭物的体外稳定性和毒性。

方法

评估了两种方法来获得I/At-Rh[16aneS]-SP放射生物共轭物，分别基于两步合成法和一步合成法。在第一种方法中，获得了I/At-Rh[16aneS]-COOH配合物，该配合物需要进一步与生物分子偶联。在第二种方法中，合成了生物共轭物[16aneS]-SP，并通过利用Rh(III)金属阳离子桥进一步用I和At进行标记。通过高效液相色谱法(HPLC)、薄层色谱法(TLC)和纸电泳对合成的化合物进行了分析。

结果

I/At-Rh[16aneS]-COOH配合物以高产率获得，并且在磷酸盐缓冲盐水(PBS)和脑脊液(CSF)中具有良好的稳定性。两步合成法中I-Rh[16aneS]-COOH与P物质(5-11)偶联的初步研究表明，就砹的半衰期而言，该过程过长，促使我们最终采用一步合成法对其进行改进。该策略不仅缩短了标记时间，还提高了I/At-Rh[16aneS]-SP放射生物共轭物的最终产率。两种化合物在PBS和CSF中的稳定性都很高。对At-Rh[16aneS]-SP的毒性研究表明，放射生物共轭物以剂量依赖性方式显著降低T98G细胞活力，在最高放射性1200kBq/mL时存活率达到20%。

结论

放射生物共轭物At-Rh[16aneS]-SP在体外研究中显示出其在杀死胶质瘤T98G细胞方面的潜力；因此，需要进一步进行动物研究，以确定其在正常小鼠和异种移植小鼠体内的稳定性和治疗潜力。

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将物质P（5-11）标记为用于胶质瘤治疗的潜在放射性药物。

At labeled substance P (5-11) as potential radiopharmaceutical for glioma treatment.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSIONS

引言

方法

结果

结论

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