Development and evaluation of albumin binder-conjugated heterodimeric radiopharmaceuticals targeting integrin α_vβ₃ and CD13 for cancer therapy.

IF 8.6 1区医学 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING

European Journal of Nuclear Medicine and Molecular Imaging Pub Date : 2024-09-01 Epub Date: 2024-05-24 DOI:10.1007/s00259-024-06766-y

Biao Yang, Changyu Shan, Xiangming Song, Xiaoying Lv, Yu Long, Dexing Zeng, Rui An, Xiaoli Lan, Yongkang Gai

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引用次数: 0

Abstract

Purpose: The advancement of heterodimeric tracers, renowned for their high sensitivity, marks a significant trend in the development of radiotracers for cancer diagnosis. Our prior work on [⁶⁸Ga]Ga-HX01, a heterodimeric tracer targeting CD13 and integrin α_vβ₃, led to its approval for phase I clinical trials by the China National Medical Production Administration (NMPA). However, its fast clearance and limited tumor retention pose challenges for broader clinical application in cancer treatment. This study aims to develop a new radiopharmaceutical with increased tumor uptake and prolonged retention, rendering it a potential therapeutic candidate.

Methods: New albumin binder-conjugated compounds were synthesized based on the structure of HX01. In vitro and in vivo evaluation of these new compounds were performed after labelling with ⁶⁸Ga. Small-animal PET/CT imaging were conducted at different time points at 0.5-6 h post injection (p.i.) using BxPC-3 xenograft mice models. The one with the best imaging performance was further radiolabeled with ¹⁷⁷Lu for small-animal SPECT/CT and ex vivo biodistribution investigation.

Results: We have synthesized novel albumin binder-conjugated compounds, building upon the structure of HX01. When radiolabeled with ⁶⁸Ga, all compounds demonstrated improved pharmacokinetics (PK). Small-animal PET/CT studies revealed that these new albumin binder-conjugated compounds, particularly [⁶⁸Ga]Ga-L6, exhibited significantly enhanced tumor accumulation and retention compared with [⁶⁸Ga]Ga-L0 without an albumin binder. [⁶⁸Ga]Ga-L6 outperformed [⁶⁸Ga]Ga-L7, a compound developed using a previously reported albumin binder. Furthermore, [¹⁷⁷Lu]Lu-L6 demonstrated rapid clearance from normal tissues, high tumor uptake, and prolonged retention in small-animal SPECT/CT and biodistribution studies, positioning it as an ideal candidate for radiotherapeutic applications.

Conclusion: A new integrin α_vβ₃ and CD13 targeting compound was screened out. This compound bears a novel albumin binder and exhibits increased tumor uptake and prolonged tumor retention in BxPC-3 tumors and low background in normal organs, making it a perfect candidate for radiotherapy when radiolabeled with ¹⁷⁷Lu.

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开发和评估针对整合素αvβ3和CD13的白蛋白粘合剂异二聚体放射性药物，用于癌症治疗。

目的：异二聚体示踪剂以其高灵敏度而著称，它的发展标志着用于癌症诊断的放射性示踪剂的一个重要趋势。[68Ga]Ga-HX01是一种以CD13和整合素αvβ3为靶点的异二聚体示踪剂，我们之前的研究工作使其获得了中国国家医药生产监督管理总局（NMPA）的批准，用于I期临床试验。然而，其快速清除和有限的肿瘤保留率给肿瘤治疗的临床应用带来了挑战。本研究旨在开发一种新的放射性药物，它能增加肿瘤摄取，延长肿瘤保留时间，使其成为潜在的治疗候选药物：方法：根据 HX01 的结构合成了新的白蛋白结合剂化合物。用 68Ga 标记后，对这些新化合物进行了体外和体内评估。使用 BxPC-3 异种移植小鼠模型，在注射后 0.5-6 h 的不同时间点进行了小动物 PET/CT 成像。其中成像效果最好的一种进一步用 177Lu 进行放射性标记，用于小动物 SPECT/CT 和体内外生物分布研究：结果：我们在 HX01 结构的基础上合成了新型白蛋白粘合剂共轭化合物。当用 68Ga 进行放射性标记时，所有化合物都显示出更好的药代动力学（PK）。小动物 PET/CT 研究显示，与不含白蛋白粘合剂的 [68Ga]Ga-L0 相比，这些新型白蛋白粘合剂共轭化合物，特别是 [68Ga]Ga-L6 的肿瘤蓄积和保留能力显著增强。[68Ga]Ga-L6的表现优于[68Ga]Ga-L7，后者是使用以前报道过的一种白蛋白粘合剂开发的化合物。此外，在小动物 SPECT/CT 和生物分布研究中，[177Lu]Lu-L6 表现出从正常组织中快速清除、高肿瘤摄取率和长时间滞留的特性，使其成为放射治疗应用的理想候选物质：结论：筛选出了一种新的整合素αvβ3和CD13靶向化合物。结论：筛选出了一种新的整合素αvβ3和CD13靶向化合物，该化合物含有一种新型白蛋白粘合剂，在BxPC-3肿瘤中表现出肿瘤摄取增加、肿瘤保留时间延长以及在正常器官中的低本底，使其成为放射性标记177Lu后用于放射治疗的理想候选化合物。

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来源期刊

European Journal of Nuclear Medicine and Molecular Imaging 医学-核医学

CiteScore

15.60

自引率

9.90%

发文量

392

审稿时长

3 months

期刊介绍： The European Journal of Nuclear Medicine and Molecular Imaging serves as a platform for the exchange of clinical and scientific information within nuclear medicine and related professions. It welcomes international submissions from professionals involved in the functional, metabolic, and molecular investigation of diseases. The journal's coverage spans physics, dosimetry, radiation biology, radiochemistry, and pharmacy, providing high-quality peer review by experts in the field. Known for highly cited and downloaded articles, it ensures global visibility for research work and is part of the EJNMMI journal family.

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