化学
聚乙二醇化
抗体调理
肽
体内分布
细胞因子
PEG比率
免疫系统
抗体
聚乙二醇
体内
生物物理学
纳米颗粒
内化
生物化学
体外
生物活性
共轭体系
细胞生物学
补体系统
体液免疫
离体
肿瘤坏死因子α
促红细胞生成素
iC3b公司
作者
Rajesh Mukthavaram,Steven P. Tanis,Amit Sagi,Parsa Parirokh,Michael Davis,Hyojung Hong,Hannah Pham Huynh,Michelle Nguyen,Robin Lee,Yurong Guo,Ramon Diaz Trelles,Kiyoshi Tachikawa,Thanhchau Dam,Marciano Sablad,Grishma Acharya,Adrian Dukanovic,Benchawanna Soontornniyomkij,Cristiano Sacchetti,Paloma Martinez-Redondo,Brian M. Sullivan
标识
DOI:10.1002/adhm.202505392
摘要
Polyethylene glycol (PEG) is a proven component in lipid nanoparticles (LNPs). PEGylated nanoparticles are known to improve LNP circulation half-life and opsonization profiles. However, the drawbacks of PEG are hypersensitivity reactions due to pre-existing PEG antibodies and poor biodegradability. These factors warrant a search for alternatives. Some large peptides have shown potent stealth properties in protein delivery. Here, we demonstrate that repeating units of serine-threonine-glutamic acid-proline (STEP) peptide conjugated to dimyristoylglycerol (DMG-STEP) and incorporated into lipid nanoparticles can perform as functional equivalents of DMG-PEG. LNPs with DMG-STEPs displayed similar physicochemical attributes and comparable Factor VII (FVII) silencing and human erythropoietin (hEPO) expression in both mouse and nonhuman primate animal models, with comparable biodistribution profile in mice. Additionally, DMG-STEP LNPs encapsulating mRNA encoding for SARS-CoV-2 Spike protein (Wuhan variant) demonstrated superior humoral immune response in a mouse study. In addition, the preliminary safety of STEP LNPs was demonstrated by quantifying liver enzymes, cytokine induction, complement activation, and anti-STEP antibody production. Results demonstrated comparable or even reduced cytokine induction responses with STEP LNPs compared to control PEG LNPs. The data presented supports translational potential of STEP LNPs.
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