放射性碘标记凋亡诱导配体 rhTRAIL 和放射性标记激动型 TRAIL 受体抗体的开发用于临床影像学研究。

Development of a radioiodinated apoptosis-inducing ligand, rhTRAIL, and a radiolabelled agonist TRAIL receptor antibody for clinical imaging studies.

机构信息

Department of Medical Oncology, University of Groningen, the Netherlands.

出版信息

Br J Pharmacol. 2012 Apr;165(7):2203-12. doi: 10.1111/j.1476-5381.2011.01718.x.

DOI:10.1111/j.1476-5381.2011.01718.x

PMID:22014269

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3413857/

Abstract

BACKGROUND AND PURPOSE

The TNF-related apoptosis inducing ligand (TRAIL) induces apoptosis through activation of the death receptors, TRAIL-R1 and TRAIL-R2. Recombinant human (rh) TRAIL and the TRAIL-R1 directed monoclonal antibody mapatumumab are currently clinically evaluated as anticancer agents. The objective of this study was to develop radiopharmaceuticals targeting the TRAIL-R1, suitable for clinical use to help understand and predict clinical efficacy in patients.

EXPERIMENTAL APPROACH

rhTRAIL was radioiodinated with (125) I, and conjugated mapatumumab was radiolabelled with (111) In. The radiopharmaceuticals were characterized, their in vitro stability and death receptor targeting capacities were determined and in vivo biodistribution was studied in nude mice bearing human tumour xenografts with different expression of TRAIL-R1.

KEY RESULTS

Labelling efficiencies, radiochemical purity, stability and binding properties were optimized for the radioimmunoconjugates. In vivo biodistribution showed rapid renal clearance of [(125) I]rhTRAIL, with highest kidney activity at 15 min and almost no detectable activity after 4 h. Activity rapidly decreased in almost all organs, except for the xenografts. Radiolabelled mapatumumab showed blood clearance between 24 and 168 h and a reduced decrease in radioactivity in the high receptor expression xenograft.

CONCLUSIONS AND IMPLICATIONS

rhTRAIL and mapatumumab can be efficiently radiolabelled. The new radiopharmaceuticals can be used clinically to study pharmacokinetics, biodistribution and tumour targeting, which could support evaluation of the native targeted agents in phase I/II trials.

摘要

背景与目的

肿瘤坏死因子相关凋亡诱导配体（TRAIL）通过激活死亡受体 TRAIL-R1 和 TRAIL-R2 诱导细胞凋亡。重组人（rh）TRAIL 和 TRAIL-R1 导向的单克隆抗体 mapatumumab 目前正在临床评估作为抗癌药物。本研究的目的是开发针对 TRAIL-R1 的放射性药物，适合临床使用，以帮助了解和预测患者的临床疗效。

实验方法

用（125）I 对 rhTRAIL 进行放射性碘标记，并用（111）In 标记 mapatumumab。对放射性药物进行了表征，测定了它们的体外稳定性和死亡受体靶向能力，并在表达不同 TRAIL-R1 的人肿瘤异种移植裸鼠中进行了体内生物分布研究。

主要结果

优化了放射性免疫偶联物的标记效率、放射化学纯度、稳定性和结合特性。体内生物分布显示 [(125)I]rhTRAIL 具有快速的肾脏清除率，在 15 分钟时肾脏活性最高，在 4 小时后几乎检测不到活性。除了异种移植瘤外，几乎所有器官中的活性都迅速下降。放射性标记的 mapatumumab 显示出 24 至 168 小时的血液清除率，并且在高受体表达异种移植瘤中放射性活性的下降减少。

结论和意义

rhTRAIL 和 mapatumumab 可以有效地进行放射性标记。新的放射性药物可在临床上用于研究药代动力学、生物分布和肿瘤靶向性，这可以支持在 I/II 期试验中评估天然靶向药物。

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