双功能
基因沉默
生物
抗体
细胞生物学
小干扰RNA
赖氨酸
计算生物学
结合位点
转染
重组DNA
分子生物学
RNA干扰
HEK 293细胞
结合
血浆蛋白结合
糖基化
抗体-药物偶联物
细胞
效力
报告基因
N端
精氨酸
生物化学
生物物理学
配对
蛋白质工程
细胞培养
肽序列
碱基对
领域(数学分析)
CTD公司
作者
Ying Liu,Yan Zheng,Ruolin Xu,Yanan Quan,Wanyi Tai
摘要
Antibody-small interfering RNA (siRNA) conjugates present an opportunity to expand the siRNA therapy to extrahepatic tissues. However, their investigation is now only confined to a limited number of targets, partially owing to some flaws in structures. Here, we described a modular design of bifunctional antibody that tethers siRNA without conjugation, yielding a diligent one-to-one antibody-siRNA pairing structure feasible for target expansion, charge masking, and further functionalization. Focusing on a noncationic siRNA-recruiting module, Staufen1 dsRBD34, we demonstrated that bifunctional antibodies recruit siRNA independent of base modification and enable target gene silencing on multiple cell types at a stoichiometry (1/1). Notably, by functionalizing siRNA terminus with small-molecule enhancers, the silencing potency of this pairing system can be augmented by seven times (IC50 from 200 to 28 nM) through the endosome-to-cytosol import. Affinity maturation by arginine scanning yields the 32 times higher affinity of dsRBD34 to siRNA, but the augment led to neither stronger silencing nor higher stability in mouse plasma as compared to p19 protein. The competition from sulfated GAGs in circulations can alter the pharmacokinetics of pairs and prevent a practical assessment of their potential in vivo. Altogether, bifunctional antibodies here possess notable properties, but ultrahigh-affinity dsRNA-binding domain is necessary to realize applications.
科研通智能强力驱动
Strongly Powered by AbleSci AI