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首次人体验证了使用改良的 [Ga]Ga-HER2 Affibody 酶解清除策略降低肾脏放射性的效果。

First-in-human validation of enzymolysis clearance strategy for decreasing renal radioactivity using modified [Ga]Ga-HER2 Affibody.

机构信息

Department of Nuclear Medicine, Xijing Hospital, Fourth Military Medical University, Xi'an, 710032, Shannxi, China.

Departments of Diagnostic Radiology, Surgery, Chemical and Biomolecular Engineering, and Biomedical Engineering, Yong Loo Lin School of Medicine and Faculty of Engineering, National University of Singapore, Singapore, 119074, Singapore.

出版信息

Eur J Nucl Med Mol Imaging. 2024 May;51(6):1713-1724. doi: 10.1007/s00259-023-06584-8. Epub 2024 Jan 13.

DOI:10.1007/s00259-023-06584-8
PMID:38216779
Abstract

PURPOSE

Enzymolysis clearance strategy, characterized by releasing the non-reabsorbable radioactive fragment under the specific cleavage of enzymes, is confirmed to be a safe and effective way to reduce the renal radioactivity accumulation in mice. However, the effectiveness of this strategy in humans remains unknown. Human epidermal growth factor receptor 2 (HER2) is overexpressed in various types of tumors, and radiolabeled HER2 Affibody is believed to be an attractive tool for HER2-targeted theranostics. However, its wide application is limited by the high and persistent renal uptake. In this study, we intend to validate the effectiveness of enzymolysis clearance strategy in reducing renal accumulation by using a modified HER2 Affibody.

MATERIALS AND METHODS

A new HER2 Affibody ligand, NOTA-MVK-Z, containing a cleavable Met-Val-Lys (MVK) linker was synthesized and labeled with Ga. The microPET imaging study was performed in SKOV-3 tumor mice to assess the uptakes of the control ligand and the MVK one in tumors and kidneys. Seven healthy volunteers were included for biodistribution and dosimetric studies with both the control and MVK ligands performed 1 week apart. Urine and blood samples from healthy volunteers were collected for in vivo metabolism study of the two ligands. Four HER2-positive and two HER2-negative patients were recruited for [Ga]Ga-NOTA-MVK-Z PET/CT imaging at 2 and 4 h post-injection (p.i.).

RESULTS

[Ga]Ga-NOTA-MVK-Z was stable both in PBS and in mouse serum. MicroPET images showed that the tumor uptake of [Ga]Ga-NOTA-MVK-Z was comparable to that of [Ga]Ga-NOTA-Z at all the time points, while the kidney uptake was significantly reduced 40 min p.i. (P < 0.05). The biodistribution study in healthy volunteers showed that the kidney uptake of MVK ligand was significantly lower than that of the control ligand at 1 h p.i. (P < 0.05), with the SUV of 34.3 and 45.8, respectively, while the uptakes of the two ligands in the other organs showed negligible difference. The effective doses of the MVK ligand and the control one were 26.1 and 28.7 µSv/MBq, respectively. The enzymolysis fragment of [Ga]Ga-NOTA-Met-OH was observed in the urine samples of healthy volunteers injected with the MVK ligand, indicating that the enzymolysis clearance strategy worked in humans. The PET/CT study of patients showed that the range of SUV of HER2-positive lesions was 9.4-21, while that of HER2-negative lesions was 2.7-6.2, which suggested that the MVK modification did not affect the ability of Z structure to bind with HER2.

CONCLUSION

We for the first time demonstrated that enzymolysis clearance strategy can effectively reduce renal radioactivity accumulation in humans. This strategy is expected to decrease renal radiation dose of peptide and small protein-based radiotracers, especially in the field of radionuclide therapy.

摘要

目的

酶切清除策略的特点是在特定酶的切割下释放不可再吸收的放射性片段,已被证实是一种安全有效的降低小鼠肾放射性蓄积的方法。然而,该策略在人体中的有效性尚不清楚。人表皮生长因子受体 2(HER2)在多种类型的肿瘤中过表达,放射性标记的 HER2 Affibody 被认为是一种有吸引力的 HER2 靶向治疗工具。然而,其广泛应用受到肾摄取量高且持续时间长的限制。在本研究中,我们拟通过修饰的 HER2 Affibody 验证酶切清除策略降低肾蓄积的有效性。

材料和方法

合成了一种新的 HER2 Affibody 配体 NOTA-MVK-Z,其中含有可切割的 Met-Val-Lys(MVK)接头,并与 Ga 标记。在 SKOV-3 肿瘤小鼠中进行 microPET 成像研究,以评估对照配体和 MVK 配体在肿瘤和肾脏中的摄取。7 名健康志愿者进行了配体的生物分布和剂量学研究,1 周后分别进行对照配体和 MVK 配体的研究。收集健康志愿者的尿液和血液样本,进行两种配体的体内代谢研究。招募 4 名 HER2 阳性和 2 名 HER2 阴性患者,在注射后 2 和 4 h 进行 [Ga]Ga-NOTA-MVK-Z PET/CT 成像。

结果

[Ga]Ga-NOTA-MVK-Z 在 PBS 和小鼠血清中均稳定。microPET 图像显示,[Ga]Ga-NOTA-MVK-Z 的肿瘤摄取在所有时间点均与 [Ga]Ga-NOTA-Z 相当,而在 40 分钟时肾摄取明显降低(P < 0.05)。健康志愿者的生物分布研究表明,MVK 配体在 1 小时时肾摄取明显低于对照配体(P < 0.05),分别为 34.3 和 45.8,而两种配体在其他器官中的摄取无明显差异。MVK 配体和对照配体的有效剂量分别为 26.1 和 28.7 µSv/MBq。在注射 MVK 配体的健康志愿者的尿液样本中观察到 [Ga]Ga-NOTA-Met-OH 的酶解片段,表明酶切清除策略在人体中起作用。患者的 PET/CT 研究表明,HER2 阳性病变的 SUV 范围为 9.4-21,而 HER2 阴性病变的 SUV 范围为 2.7-6.2,这表明 MVK 修饰不影响 Z 结构与 HER2 的结合能力。

结论

我们首次证明,酶切清除策略可有效降低人体肾放射性蓄积。该策略有望降低肽和小蛋白放射性示踪剂的肾辐射剂量,特别是在放射性核素治疗领域。

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