聚乙二醇化病毒纳米颗粒在生物医学中的应用：PEG 链长对 VNP 细胞相互作用的体外和离体影响。

PEGylated viral nanoparticles for biomedicine: the impact of PEG chain length on VNP cell interactions in vitro and ex vivo.

机构信息

Department of Cell Biology, Center for Integrative Molecular Biosciences, The Scripps Research Institute, La Jolla, California 92037, USA.

出版信息

Biomacromolecules. 2009 Apr 13;10(4):784-92. doi: 10.1021/bm8012742.

DOI:10.1021/bm8012742

PMID:19281149

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2849976/

Abstract

PEGylation is an effective strategy for reducing biospecific interactions for pharmaceuticals. The plant virus Cowpea mosaic virus (CPMV) has been studied for potential nanobiomedical applications by virtue of its natural interactions with mammalian endothelial cells. To investigate the degree of PEGylation required to retarget CPMV-based formulations to other destinations, two CPMV-PEG formulations, CPMV-PEG1000 (P1) and CPMV-PEG2000 (P2) were tested. Modeling suggested that the PEG chains were displayed as flattened mushrooms on the particle with an estimated surface grafting area of 0.53% for P1 and 0.83% for P2. Only the P2 formulation effectively shielded the particles from interacting with cells or tissues, suggesting that either key interacting regions on the particle surface were blocked or that a sufficient hydration shell had been generated to inhibit cellular interactions. The large CPMV surface area available after PEGylation allows further attachment of imaging and therapeutic molecules to the particle to generate multifunctionality.

摘要

聚乙二醇化是一种降低生物药物相互作用的有效策略。由于与哺乳动物内皮细胞的天然相互作用，植物病毒豇豆花叶病毒（CPMV）已被研究用于潜在的纳米生物医学应用。为了研究将基于 CPMV 的制剂靶向其他目标所需的聚乙二醇化程度，研究了两种 CPMV-PEG 制剂，CPMV-PEG1000（P1）和 CPMV-PEG2000（P2）。建模表明，PEG 链在颗粒上呈扁平蘑菇状展示，P1 的估计表面接枝面积为 0.53%，P2 的估计表面接枝面积为 0.83%。只有 P2 制剂能有效地阻止颗粒与细胞或组织相互作用，这表明颗粒表面的关键相互作用区域被阻断，或者形成了足够的水化壳来抑制细胞相互作用。聚乙二醇化后，CPMV 具有较大的表面积，允许进一步将成像和治疗分子附着到颗粒上，从而产生多功能性。

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本文引用的文献

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