siRNA potency enhancement via chemical modifications of nucleotide bases at the 5′-end of the siRNA guide strand
- Fumikazu Shinohara1,
- Taiji Oashi1,
- Toshimasa Harumoto1,
- Tomoyuki Nishikawa1,
- Yuki Takayama1,
- Hikaru Miyagi1,
- Yuichi Takahashi1,
- Takahiro Nakajima1,
- Takashi Sawada1,
- Yasuo Koda1,
- Asana Makino1,
- Atsuko Sato1,
- Kaori Hamaguch1,
- Michihiko Suzuki1,
- Junichiro Yamamoto1,
- Yukihide Tomari2 and
- Jun-Ichi Saito1,3
- ↵* Corresponding author; email: jun.saito.su{at}kyowakirin.com
Abstract
Small interfering RNAs (siRNAs) can be utilized not only as functional biological research tools but also as therapeutic agents. For the clinical use of siRNA as drugs, various chemical modifications have been employed to improve the activity of siRNA drugs, and further chemical modifications are expected to improve the utility of siRNA therapeutics. As the 5′ nucleobase of the guide strand affects the interaction between an siRNA and AGO2 and target cleavage activity, structural optimization of this specific position may be a useful strategy for improving siRNA activity. Here, using the in silico model of the complex between human AGO2 MID domain and nucleoside monophosphates, we screened and synthesized an original adenine-derived analogue, 6-(3-(2-carboxyethyl)phenyl)purine (6-mCEPh-purine), that fits better than the natural nucleotide bases into the MID domain of AGO2. Introduction of the 6-mCEPh-purine analogue at the 5′-end of the siRNA guide strand significantly enhanced target knockdown activity in both cultured cell lines and in vivo animal models. Our findings can help expand strategies for rationally optimizing siRNA activity via chemical modifications of nucleotide bases.
Keywords
- Received October 27, 2019.
- Accepted November 5, 2020.
- Published by Cold Spring Harbor Laboratory Press for the RNA Society
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