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调整人血清白蛋白 III 结构域-双抗体融合蛋白的血清半衰期。

Tuning the serum persistence of human serum albumin domain III:diabody fusion proteins.

机构信息

Crump Institute for Molecular Imaging, Department of Molecular and Medical Pharmacology, David Geffen School of Medicine, California Nanosystems Institute, University of California, Los Angeles, 570 Westwood Plaza, CA 90095-1770, USA.

出版信息

Protein Eng Des Sel. 2010 Oct;23(10):789-98. doi: 10.1093/protein/gzq054. Epub 2010 Aug 28.

DOI:10.1093/protein/gzq054
PMID:20802234
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2935312/
Abstract

The long circulation persistence of human serum albumin (HSA) is enabled by its domain III (DIII) interaction with the neonatal Fc receptor (FcRn). A protein scaffold based on HSA DIII was designed. To modify the serum half life of the scaffold, residues H535, H510, and H464 were individually mutated to alanine. HSA DIII wild type (WT) and variants were fused to the anti-carcinoembryonic antigen (CEA) T84.66 diabody (Db), radiolabeled with (124)I and injected into xenografted athymic mice for serial PET/CT imaging. All proteins targeted the CEA-positive tumor. The mean residence times (MRT) of the proteins, calculated by quantifying blood activity from the PET images, were: Db-DIII WT (56.7 h), H535A (25 h), H510A (20 h), H464A (17 h), compared with Db (2.9 h). Biodistribution confirmed the order of blood clearance from slow to fast: Db-DIII WT > H535A > H510A > H464A > Db with 4.0, 2.0, 1.8, 1.6 and 0.08 %ID/g of remaining blood activity at 51 h, respectively. This study demonstrates that attenuating the DIII-FcRn interaction provides a way of controlling the pharmacokinetics of the entire Db-DIII fusion protein without compromising tumor targeting. H464 appears to be most crucial for FcRn binding (greatest reduction in MRT), followed by H510 and H535. By mutating the DIII scaffold, we can dial serum kinetics for imaging or therapy applications.

摘要

人血清白蛋白(HSA)的长循环持久性是由其结构域 III(DIII)与新生 Fc 受体(FcRn)相互作用实现的。设计了一种基于 HSA DIII 的蛋白质支架。为了修饰支架的血清半衰期,分别将残基 H535、H510 和 H464 突变为丙氨酸。将 HSA DIII 野生型(WT)和变体与抗癌胚抗原(CEA)T84.66 二抗(Db)融合,用(124)I 放射性标记,并注射到异种移植的无胸腺小鼠中进行连续 PET/CT 成像。所有蛋白质均靶向 CEA 阳性肿瘤。通过从 PET 图像量化血液活性来计算蛋白质的平均驻留时间(MRT),结果为:Db-DIII WT(56.7 h),H535A(25 h),H510A(20 h),H464A(17 h),而 Db 为(2.9 h)。生物分布证实了从慢到快的血液清除顺序:Db-DIII WT>H535A>H510A>H464A>Db,分别在 51 h 时剩余血液活性为 4.0、2.0、1.8、1.6 和 0.08 %ID/g。这项研究表明,削弱 DIII-FcRn 相互作用为控制整个 Db-DIII 融合蛋白的药代动力学提供了一种方法,而不会影响肿瘤靶向。H464 似乎对 FcRn 结合最为关键(MRT 降低最大),其次是 H510 和 H535。通过突变 DIII 支架,我们可以针对成像或治疗应用调整血清动力学。

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