免疫原性
纳米笼
免疫系统
聚乙二醇化
临床疗效
材料科学
抗体
药理学
医学
免疫学
化学
生物化学
内科学
催化作用
聚乙二醇
作者
Bowen Li,Zhefan Yuan,Peng Zhang,Andrew Sinclair,Priyesh Jain,Kan Wu,Caroline Tsao,Jingyi Xie,Hsiang‐Chieh Hung,Xiaojie Lin,Tao Bai,Shaoyi Jiang
标识
DOI:10.1002/adma.201705728
摘要
Abstract For biotherapeutics that require multiple administrations to fully cure diseases, the induction of undesirable immune response is one common cause for the failure of their treatment. Covalent binding of hydrophilic polymers to proteins is commonly employed to mitigate potential immune responses. However, while this technique is proved to partially reduce the antibodies (Abs) reactive to proteins, it may induce Abs toward their associated polymers and thus result in the loss of efficacy. Zwitterionic poly(carboxybetaine) (PCB) is recently shown to improve the immunologic properties of proteins without inducing any antipolymer Abs against itself. However, it is unclear if the improved immunologic profiles can translate to better clinical outcomes since improved immunogenicity cannot directly reflect amelioration in efficacy. Here, a PCB nanocage (PCB NC) is developed, which can physically encase proteins while keeping their structure intact. PCB NC encapsulation of uricase, a highly immunogenic enzyme, is demonstrated to eradicate all the immune responses. To bridge the gap between immunogenicity and efficacy studies, the therapeutic performance of PCB NC uricase is evaluated and compared with its PEGylated counterpart in a clinical‐mimicking gouty rat model to determine any loss of efficacy evoked after five administrations.
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