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Biorthogonal PEGylation of Hierarchical Porous Metal–Organic Frameworks as Robust, Functional Nanocarriers for Hemoglobin-Based Oxygen Delivery

聚乙二醇化 化学 纳米技术 药物输送 纳米载体 体内分布 纳米颗粒 生物相容性材料 二硒醚 生物结合 介孔二氧化硅 介孔材料 毒品携带者 组合化学 移植 纳米囊 聚合 生物物理学 纳米医学 微型多孔材料 纳米工程 充氧 泊洛沙姆 肿瘤缺氧 血液循环
作者
Weiguang Jin,Gizem Bor,Mehrdad Asgari,Louise Bochsen,Katrine Qvortrup,Anne Kirstine Havnsøe Krogh,David Fairen-Jimenez,Leticia Hosta-Rigau,Weiguang Jin,Gizem Bor,Mehrdad Asgari,Louise Bochsen,Katrine Qvortrup,Anne Kirstine Havnsøe Krogh,David Fairen-Jimenez,Leticia Hosta-Rigau
出处
期刊:Journal of the American Chemical Society [American Chemical Society]
卷期号:147 (47): 43400-43414
标识
DOI:10.1021/jacs.5c10582
摘要

Adequate oxygenation is critical for therapy and recovery across diverse biomedical contexts. Oxygen (O2) carriers not only serve as potential blood substitutes in hemorrhage but also alleviate tumor hypoxia to enhance radiotherapy, photodynamic therapy, and related treatments. They further promote wound healing, protect tissues from ischemia-reperfusion injury in myocardial infarction or stroke, and improve organ transplantation outcomes by sustaining graft oxygenation. Synthetic hemoglobin (Hb)-based O2 carriers (HBOCs) represent a promising approach to mitigate hypoxia; however, maintaining Hb stability, O2-binding capacity, and circulation longevity remains challenging. Metal-organic framework nanoparticles (MOF NPs), known for their tunable porosity, hold potential for Hb encapsulation and O2 delivery, but their predominant microporous structure and poor physiological stability hinder biological applications. Here, we present an ″inside-out″ engineering strategy to construct a robust HBOC by integrating hierarchically porous UiO-66 NPs (HP-UiO-66 NPs) with diphenylcyclooctyne-azide click chemistry to anchor a covalent PEG shell. The introduction of mesopores enables efficient Hb loading while preserving microporosity for O2 diffusion. The mild, biorthogonal PEGylation preserves Hb's O2-binding functionality and substantially enhances colloidal and physiological stability. PEGylated HP-UiO-66 NPs remain stable in biological media for over 7 days, outperforming unmodified analogues prone to phosphate-induced degradation. Comprehensive in vitro studies reveal promising biocompatibility, and pharmacokinetic and biodistribution studies confirm prolonged circulation and selective organ accumulation. This work establishes HP-UiO-66 NPs as a versatile platform for O2 delivery, highlighting the synergistic potential of pore engineering and surface modification strategies to advance MOF-based biomacromolecule delivery for critical care applications.
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