Profiling target engagement and cellular uptake of cRGD-decorated clinical-stage core-crosslinked polymeric micelles

胶束 内化 生物物理学 整合素 化学 体内 体内分布 药物输送 三维细胞培养 α-vβ-3 细胞 材料科学 体外 生物化学 生物 有机化学 生物技术 水溶液 维生素连接蛋白
作者
Federica Lorenzi,Larissa Yokota Rizzo,Rasika Daware,Alessandro Motta,Maike Baues,Matthias Bartneck,Michael Vogt,Marc van Zandvoort,Leonard Kaps,Qizhi Hu,Mariëlle Thewissen,Luca Casettari,Cristianne J.F. Rijcken,Fabian Kießling,Alexandros Marios Sofias,Twan Lammers
出处
期刊:Drug Delivery and Translational Research [Springer Science+Business Media]
卷期号:13 (5): 1195-1211 被引量:5
标识
DOI:10.1007/s13346-022-01204-8
摘要

Abstract Polymeric micelles are increasingly explored for tumor-targeted drug delivery. CriPec® technology enables the generation of core‐crosslinked polymeric micelles (CCPMs) based on thermosensitive (mPEG-b-pHPMAmLac n ) block copolymers, with high drug loading capacity, tailorable size, and controlled drug release kinetics. In this study, we decorated clinical-stage CCPM with the α v β 3 integrin-targeted cyclic arginine-glycine-aspartic acid (cRGD) peptide, which is one of the most well-known active targeting ligands evaluated preclinically and clinically. Using a panel of cell lines with different expression levels of the α v β 3 integrin receptor and exploring both static and dynamic incubation conditions, we studied the benefit of decorating CCPM with different densities of cRGD. We show that incubation time and temperature, as well as the expression levels of α v β 3 integrin by target cells, positively influence cRGD-CCPM uptake, as demonstated by immunofluorescence staining and fluorescence microscopy. We demonstrate that even very low decoration densities (i.e., 1 mol % cRGD) result in increased engagement and uptake by target cells as compared to peptide-free control CCPM, and that high cRGD decoration densities do not result in a proportional increase in internalization. In this context, it should be kept in mind that a more extensive presence of targeting ligands on the surface of nanomedicines may affect their pharmacokinetic and biodistribution profile. Thus, we suggest a relatively low cRGD decoration density as most suitable for in vivo application. Graphical Abstract

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