Department of Immunology, Genetics and Pathology, Uppsala University, SE-75185, Uppsala, Sweden.
Department of Protein Technology, KTH-Royal Institute of Technology, SE-10691, Stockholm, Sweden.
Biomaterials. 2021 Jan;266:120381. doi: 10.1016/j.biomaterials.2020.120381. Epub 2020 Oct 17.
Molecular recognition in targeted therapeutics is typically based on immunoglobulins. Development of engineered scaffold proteins (ESPs) has provided additional opportunities for the development of targeted therapies. ESPs offer inexpensive production in prokaryotic hosts, high stability and convenient approaches to modify their biodistribution. In this study, we demonstrated successful modification of the biodistribution of an ESP known as ADAPT (Albumin-binding domain Derived Affinity ProTein). ADAPTs are selected from a library based on the scaffold of ABD (Albumin Binding Domain) of protein G. A particular ADAPT, the ADAPT6, binds to human epidermal growth factor receptor type 2 (HER2) with high affinity. Preclinical and early clinical studies have demonstrated that radiolabeled ADAPT6 can image HER2-expression in tumors with high contrast. However, its rapid glomerular filtration and high renal reabsorption have prevented its use in radionuclide therapy. To modify the biodistribution, ADAPT6 was genetically fused to an ABD. The non-covalent binding to the host's albumin resulted in a 14-fold reduction of renal uptake and appreciable increase of tumor uptake for the best variant, Lu-DOTA-ADAPT6-ABD. Experimental therapy in mice bearing HER2-expressing xenografts demonstrated more than two-fold increase of median survival even after a single injection of 18 MBq Lu-DOTA-ADAPT6-ABD. Thus, a fusion with ABD and optimization of the molecular design provides ADAPT derivatives with attractive targeting properties for radionuclide therapy.
靶向治疗中的分子识别通常基于免疫球蛋白。工程支架蛋白(ESP)的开发为靶向治疗的发展提供了更多的机会。ESP 在原核宿主中具有廉价的生产、高稳定性和方便修饰其生物分布的特点。在这项研究中,我们成功地修饰了一种名为 ADAPT(Albumin-binding domain Derived Affinity ProTein)的 ESP 的生物分布。ADAPTs 是从基于蛋白 G 的 ABD(Albumin Binding Domain)支架的文库中选择出来的。一种特殊的 ADAPT,ADAPT6,与人表皮生长因子受体 2(HER2)具有高亲和力。临床前和早期临床研究表明,放射性标记的 ADAPT6 可以用高对比度成像肿瘤中的 HER2 表达。然而,其快速的肾小球滤过和高肾吸收阻止了它在放射性核素治疗中的应用。为了修饰生物分布,ADAPT6 被基因融合到 ABD 上。与宿主白蛋白的非共价结合导致肾摄取减少了 14 倍,最佳变体 Lu-DOTA-ADAPT6-ABD 的肿瘤摄取明显增加。在表达 HER2 的异种移植瘤小鼠的实验治疗中,即使单次注射 18 MBq Lu-DOTA-ADAPT6-ABD,中位生存期也增加了两倍以上。因此,与 ABD 的融合和分子设计的优化为放射性核素治疗提供了具有吸引力的靶向特性的 ADAPT 衍生物。
