Elucidating the role of carrier proteins in cytokine stabilization within double emulsion‐based polymeric nanoparticles

IF 6.1 2区 医学 Q1 ENGINEERING, BIOMEDICAL Bioengineering & Translational Medicine Pub Date : 2024-09-06 DOI:10.1002/btm2.10722
Emily R. Rhodes, Nicole B. Day, Emma C. Aldrich, C. Wyatt Shields, Kayla G. Sprenger
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Abstract

Polymeric micro‐ and nanoparticles are useful vehicles for delivering cytokines to diseased tissues such as solid tumors. Double emulsion solvent evaporation is one of the most common techniques to formulate cytokines into vehicles made from hydrophobic polymers; however, the liquid–liquid interfaces formed during emulsification can greatly affect the stability and therapeutic performance of encapsulated cytokines. To develop more effective cytokine‐delivery systems, a clear molecular understanding of the interactions between relevant proteins and solvents used in the preparation of such particles is needed. We utilized an integrated computational and experimental approach for studying the governing mechanisms by which interleukin‐12 (IL‐12), a clinically relevant cytokine, is protected from denaturation by albumin, a common stabilizing protein, at an organic‐aqueous solvent interface formed during double emulsification. We investigated protein–protein interactions between human (h)IL‐12 and albumin and simulated these components in pure water, dichloromethane (DCM), and along a water/DCM interface to replicate the solvent regimes formed during double emulsification. We observed that (i) hIL‐12 experiences increased structural deviations near the water/DCM interface, and (ii) hIL‐12 structural deviations are reduced in the presence of albumin. Experimentally, we found that hIL‐12 bioactivity is retained when released from particles in which albumin is added to the aqueous phase in molar excess to hIL‐12 and sufficient time is allowed for albumin‐hIL‐12 binding. Findings from this work have implications in establishing design principles to enhance the stability of cytokines and other unstable proteins in particles formed by double emulsification for improved stability and therapeutic efficacy.
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阐明载体蛋白在双乳液基聚合物纳米粒子中稳定细胞因子的作用
聚合物微粒和纳米粒子是向实体瘤等病变组织输送细胞因子的有效载体。双乳液溶剂蒸发是将细胞因子配制成疏水聚合物载体的最常用技术之一;然而,乳化过程中形成的液-液界面会极大地影响封装细胞因子的稳定性和治疗效果。为了开发更有效的细胞因子递送系统,我们需要从分子角度清楚地了解相关蛋白质与用于制备此类微粒的溶剂之间的相互作用。我们采用了一种计算与实验相结合的方法来研究白细胞介素-12(IL-12)(一种临床相关细胞因子)在双乳化过程中形成的有机-水溶剂界面上受到白蛋白(一种常见的稳定蛋白)保护而不变性的调节机制。我们研究了人(h)IL-12 和白蛋白之间的蛋白-蛋白相互作用,并模拟了这些成分在纯水、二氯甲烷(DCM)和水/二氯甲烷界面中的情况,以复制双乳化过程中形成的溶剂体系。我们观察到:(i) hIL-12 在水/DCM 界面附近的结构偏差增大;(ii) hIL-12 的结构偏差在有白蛋白存在时减小。在实验中,我们发现当白蛋白以超过 hIL-12 的摩尔量添加到水相颗粒中,并有足够的时间让白蛋白与 hIL-12 结合时,hIL-12 的生物活性就会被释放出来。这项工作的发现有助于确立设计原则,提高细胞因子和其他不稳定蛋白质在双乳化形成的微粒中的稳定性,从而提高稳定性和疗效。
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来源期刊
Bioengineering & Translational Medicine
Bioengineering & Translational Medicine Pharmacology, Toxicology and Pharmaceutics-Pharmaceutical Science
CiteScore
8.40
自引率
4.10%
发文量
150
审稿时长
12 weeks
期刊介绍: Bioengineering & Translational Medicine, an official, peer-reviewed online open-access journal of the American Institute of Chemical Engineers (AIChE) and the Society for Biological Engineering (SBE), focuses on how chemical and biological engineering approaches drive innovative technologies and solutions that impact clinical practice and commercial healthcare products.
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