Optimization in Chemical Modification of Single-Stranded siRNA Encapsulated by Neutral Cytidinyl/Cationic Lipids

Zheng Li; Xixian Wang; Xinyang Zhou; Jie Wang; Zhu Guan; Zhenjun Yang

doi:10.3389/fchem.2022.843181

Optimization in Chemical Modification of Single-Stranded siRNA Encapsulated by Neutral Cytidinyl/Cationic Lipids

Front Chem. 2022 Mar 7:10:843181. doi: 10.3389/fchem.2022.843181. eCollection 2022.

Authors

Zheng Li¹, Xixian Wang¹, Xinyang Zhou¹, Jie Wang¹, Zhu Guan¹, Zhenjun Yang¹

Affiliation

¹ State Key Laboratory of Natural and Biomimetic Drugs, School of Pharmaceutical Sciences, Peking University, Beijing, China.

Abstract

Single-stranded siRNA (ss-siRNA) refers to the antisense strand of siRNA, which plays the role of gene silencing. Since single-stranded RNA is unstable, the present study employed a homemade neutral cytidinyl/cationic lipid delivery system and chemical modifications to improve its stability. The results showed that with the aid of mixed lipids, ss-siRNA could knock down 40% of target mRNA at 25 nM. With 2'-F/2'-OMe, phosphorothioate and 5'-terminal phosphorylation, the optimized ss-siRNA could knock down 80% of target mRNA at 25 nM. Further knocking down AGO2, the ss-siRNAs could not effectively silence target mRNAs. Analysis of the biodistribution in vivo showed that ss-siRNA was less durable than siRNA, but spread more quickly to tissues. This study provides a safe and efficient ss-siRNA delivery and modification strategy, which lays the foundation for future works.

Keywords: biodistribution; chemical modification; gene silencing; neutral cytidinyl lipid; single-stranded siRNA.