Preclinical Aspects of [89Zr]Zr-DFO-Rituximab: A High Potential Agent for Immuno-PET Imaging.

IF 1.5 4区医学 Q3 PHARMACOLOGY & PHARMACY Current radiopharmaceuticals Pub Date : 2024-10-24 DOI:10.2174/0118744710326742241018050220

Zahra Rouhollahi, Seyed Mahmoud Reza Aghamiri, Hassan Yousefnia, Behrouz Alirezapour, Ali Moghaddasi, Samaneh Zolghadri

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Abstract

Background: An early diagnosis of cancer can lead to choosing more effective treatment and increase the number of cancer survivors. In this study, the preparation and preclinical aspects of [89Zr]Zr-DFO-Rituximab, a high-potential agent for PET imaging of Non- Hodgkin Lymphoma (NHL), were evaluated.

Methods: DFO was conjugated to rituximab monoclonal antibody (mAb), and DFO-rituximab was successfully labeled with zirconium-89 (89Zr) at optimized conditions. The stability of the complex was assessed in human blood serum and PBS buffer. Radioimmunoreactivity (RIA) of the radioimmunoconjugate (RIC) was evaluated on CD20-overexpressing Raji cell line and CHO cells. The biodistribution of the radiolabeled mAb was studied in normal and tumorbearing rodents. Finally, the absorbed dose in human organs was estimated.

Results: The radiolabeled compound was prepared with radiochemical purity (RCP) >99% (RTLC) and a specific activity of 180±1.8 GBq/g. The RCP of the final complex PBS buffer and human blood serum was higher than 95%, even after 48 h post incubation. The RIA assay demonstrated that more than 63% of the radiolabeled compound (40 ng/ml, 0.5 mL) was bound to 5×106 Raji cells. The biodistribution of the final product in tumor-bearing mice showed a high accumulation of the RIC in the tumor site in all intervals post-injection. Tumor/ non-target ratios were increased over time, and longer imaging time was suggested. The dosimetry data indicated that the liver received the most absorbed dose after the complex injection.

Conclusion: [89Zr]Zr-DFO-Rituximab represents a significant advancement in the field of oncological imaging and offers a robust platform for both diagnostic and therapeutic applications in the management of B-cell malignancies.

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89Zr]Zr-DFO-利妥昔单抗的临床前研究：一种极具潜力的免疫 PET 成像剂。

背景：癌症的早期诊断可以帮助人们选择更有效的治疗方法，并增加癌症幸存者的数量。本研究对[89Zr]Zr-DFO-利妥昔单抗的制备和临床前方面进行了评估：方法：将DFO与利妥昔单抗（mAb）共轭，并在优化条件下用锆-89（89Zr）成功标记了DFO-利妥昔单抗。评估了复合物在人血清和 PBS 缓冲液中的稳定性。在表达 CD20 的 Raji 细胞系和 CHO 细胞上评估了放射免疫结合剂（RIC）的放射免疫反应性（RIA）。研究了放射性标记 mAb 在正常啮齿动物和肿瘤啮齿动物中的生物分布。最后，估算了人体器官的吸收剂量：结果：制备的放射性标记化合物的放射化学纯度（RCP）大于 99%（RTLC），比活度为 180±1.8 GBq/g。最终复合物 PBS 缓冲液和人血清的 RCP 值高于 95%，即使在培养 48 小时后也是如此。RIA 检测表明，超过 63% 的放射性标记化合物（40 纳克/毫升，0.5 毫升）与 5×106 个 Raji 细胞结合。最终产品在肿瘤小鼠体内的生物分布显示，在注射后的所有时间间隔内，RIC 在肿瘤部位都有大量积累。随着时间的推移，肿瘤/非靶标比率增加，建议延长成像时间。剂量测定数据表明，复合注射后肝脏吸收的剂量最大：结论：[89Zr]Zr-DFO-利妥昔单抗代表了肿瘤成像领域的一大进步，为B细胞恶性肿瘤的诊断和治疗应用提供了一个强大的平台。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Current radiopharmaceuticals PHARMACOLOGY & PHARMACY-

CiteScore

3.20

自引率

4.30%

发文量