作为锆-89 螯合剂的双功能八齿假肽在免疫 PET 中的应用

IF 4.4 Q1 CHEMISTRY, INORGANIC & NUCLEAR
Valentina Albanese, Chiara Roccatello, Salvatore Pacifico, Remo Guerrini, Delia Preti, Silvia Gentili, Matteo Tegoni, Maurizio Remelli, Denise Bellotti, Jonathan Amico, Giancarlo Gorgoni, Emiliano Cazzola
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引用次数: 0

摘要

背景正电子发射断层扫描(PET)是一种高灵敏度的方法,可提供高分辨率图像,在临床诊断领域非常有用。在这种情况下,锆-89(89Zr)基成像剂在利用抗体(mAbs)作为生物载体的免疫正电子发射计算机断层扫描(PET)的分子成像方面提出了巨大挑战。事实上,免疫 PET 需要能附着在 mAb 上的放射性核素,以提供稳定的体内共轭物,为此,放射性元素的衰变半衰期应与免疫球蛋白的生物分布所需时间一致。在这方面,89Zr 是免疫 PET 理想的放射性同位素,因为它的半衰期与 mAbs 的体内药代动力学完全吻合。为此,我们研究了羟肟酸、N-甲基羟肟酸和邻苯二酚螯合分子与放射性锆的络合情况。事实证明,N-甲基羟肟酸酯是最有效的 89Zr 螯合基团。此外,通过使用聚氧乙烯基团间隔羟肟酸酯单元来增加灵活性和亲水性,螯合剂能够在温和的反应条件(水环境、室温和生理 pH 值)下(15 分钟)与 89Zr 快速形成稳定的水溶性络合物,而这正是涉及生物大分子的络合反应所必须的。此外,我们还报告了与竞争配体 EDTA 以及 Fe3+、Zn2+ 和 Cu2+ 等金属离子的挑战实验。在所有考察条件下,螯合剂都表现出了抗反金属化的稳定性。最后,我们引入了马来酰亚胺分子,通过硫醇-迈克尔化学将其中一种最有前景的配体应用于生物共轭反应。所采用的化学设计可以调节分子的柔韧性、亲水性以及不同锆螯合基团的装饰。在 89Zr 螯合特性方面,N-甲基羟基氨基甲酸酯的效果最好。用最有效的化合物获得的锆复合物可溶于水,对横金属化稳定,并能抵抗肽酶至少 6 天。要评估这类新型分子作为锆螯合剂在体内应用的潜力,还需要进一步的研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Bifunctional octadentate pseudopeptides as Zirconium-89 chelators for immuno-PET applications

Background

Positron emission tomography (PET) is a highly sensitive method that provides fine resolution images, useful in the field of clinical diagnostics. In this context, Zirconium-89 (89Zr)-based imaging agents have represented a great challenge in molecular imaging with immuno-PET, which employs antibodies (mAbs) as biological vectors. Indeed, immuno-PET requires radionuclides that can be attached to the mAb to provide stable in vivo conjugates, and for this purpose, the radioactive element should have a decay half-life compatible with the time needed for the biodistribution of the immunoglobulin. In this regard, 89Zr is an ideal radioisotope for immuno-PET because its half-life perfectly matches the in vivo pharmacokinetics of mAbs.

Results

The main objective of this work was the design and synthesis of a series of bifunctional octadentate pseudopeptides able to generate stable 89Zr complexes. To achieve this, here we investigated hydroxamate, N-methylhydroxamate and catecholate chelating moieties in complexing radioactive zirconium. N-methylhydroxamate proved to be the most effective 89Zr-chelating group. Furthermore, the increased flexibility and hydrophilicity obtained by using polyoxyethylene groups spacing the hydroxamate units led to chelators capable of rapidly forming (15 min) stable and water-soluble complexes with 89Zr under mild reaction conditions (aqueous environment, room temperature, and physiological pH) that are mandatory for complexation reactions involving biomolecules. Additionally, we report challenge experiments with the competitor ligand EDTA and metal ions such as Fe3+, Zn2+ and Cu2+. In all examined conditions, the chelators demonstrated stability against transmetallation. Finally, a maleimide moiety was introduced to apply one of the most promising ligands in bioconjugation reactions through Thiol-Michael chemistry.

Conclusion

Combining solid phase and solution synthesis techniques, we identified novel 89Zr-chelating molecules with a peptide scaffold. The adopted chemical design allowed modulation of molecular flexibility, hydrophilicity, as well as the decoration with different zirconium chelating groups. Best results in terms of 89Zr-chelating properties were achieved with the N-methyl hydroxamate moiety. The Zirconium complexes obtained with the most effective compounds were water-soluble, stable to transmetallation, and resistant to peptidases for at least 6 days. Further studies are needed to assess the potential of this novel class of molecules as Zirconium-chelating agents for in vivo applications.

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来源期刊
CiteScore
7.20
自引率
8.70%
发文量
30
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