Departments of Antibody Discovery & Protein Engineering, MedImmune, One MedImmune Way, Gaithersburg, MD 20878, USA.
Departments of Antibody Discovery & Protein Engineering, MedImmune, One MedImmune Way, Gaithersburg, MD 20878, USA.
J Control Release. 2018 Jun 10;279:126-135. doi: 10.1016/j.jconrel.2018.04.013. Epub 2018 Apr 11.
The accumulation, dissemination and clearance of monoclonal antibody-based therapeutics or imaging reagents targeting tumor associated antigens is governed by several factors including affinity, size, charge, and valency. Tumor targeting antibody fragments have distinct advantages over intact monoclonal antibodies such as enhanced penetration within the tumor and rapid accumulation but are subject to rapid clearance. Polyethylene glycol (PEG)-modified antibody fragments can provide a way to balance tumor penetration and accumulation with improved serum persistence. In this study, we use a diabody, the dimeric antibody fragment, targeting the 5T4 antigen to assess the impact of PEGs of distinct size and shape on tumor accumulation and pharmacokinetics (PK). We show that PEG-modified diabodies improved the PK of the parental diabody from a half-life of 40 min to over 40 h for the higher molecular weight PEG conjugated diabodies. This improvement correlates with the increasing hydrodynamic size of pegylated diabodies, and can serve as a better predictor of the PK behavior of pegylated molecules than molecular weight alone. Tumor uptake profiles determined by quantitative PET imaging differed significantly based on PEG size and shape with diabody-PEG5K showing peak accumulation early on, but with the larger diabody-PEG20K showing better sustained tumor uptake at later time points. In addition, we demonstrate that a diabody-PEG20K-B with a hydrodynamic radius (Rh) of 6 nm had superior tumor uptake than the larger diabody-PEG40K-B with Rh of 12 nm, indicating that beyond 6 nm, larger pegylated diabodies have a slower tumor uptake rate while having comparable clearance kinetics. Our data demonstrate that pegylated diabodies with Rh of ~6 nm have an optimal size and PK profile for tumor uptake. Understanding the impact of pegylation on PK and tumor uptake could facilitate the development of pegylated diabodies as therapeutics.
基于肿瘤相关抗原的单克隆抗体治疗药物或成像试剂的积累、传播和清除受多种因素的影响,包括亲和力、大小、电荷和价态。与完整的单克隆抗体相比,肿瘤靶向抗体片段具有明显的优势,例如在肿瘤内的穿透性增强和快速积累,但也会迅速清除。聚乙二醇(PEG)修饰的抗体片段可以提供一种平衡肿瘤穿透性和积累性与改善血清持久性的方法。在这项研究中,我们使用针对 5T4 抗原的二价体,即二聚体抗体片段,来评估不同大小和形状的 PEG 对肿瘤积累和药代动力学(PK)的影响。我们发现,PEG 修饰的二价体将亲本二价体的 PK 从半衰期 40 分钟提高到更高分子量 PEG 缀合二价体的超过 40 小时。这种改善与聚乙二醇化二价体的水动力半径的增加相关,并且可以作为预测聚乙二醇化分子 PK 行为的更好指标,而不仅仅是分子量。通过定量 PET 成像确定的肿瘤摄取曲线因 PEG 大小和形状而异,其中二价体-PEG5K 显示出早期的峰值积累,但较大的二价体-PEG20K 在后期显示出更好的持续肿瘤摄取。此外,我们证明,水动力半径(Rh)为 6nm 的二价体-PEG20K-B 比 Rh 为 12nm 的较大的二价体-PEG40K-B 具有更好的肿瘤摄取,这表明超过 6nm 后,较大的聚乙二醇化二价体具有较慢的肿瘤摄取率,同时具有可比的清除动力学。我们的数据表明,Rh 约为 6nm 的聚乙二醇化二价体具有最佳的大小和 PK 特征,可用于肿瘤摄取。了解 PEG 化对 PK 和肿瘤摄取的影响可以促进聚乙二醇化二价体作为治疗药物的发展。
