体外
基因沉默
小干扰RNA
体内
生物信息学
肽
病毒学
RNA干扰
生物
核糖核酸
化学
分子生物学
基因
生物化学
生物技术
作者
Musa Khaitov,Alexandra Nikonova,I.P. Shilovskiy,Ksenia V. Kozhikhova,И.А. Кофиади,Lyudmila Vishnyakova,Aleksandr Nikolskii,Pia Gattinger,V.I. Kovchina,Ekaterina Barvinskaya,Kirill Yumashev,Valeriy Smirnov,Artem Maerle,И. Г. Козлов,Artem Shatilov,Anastasia Timofeeva,Sergey Andreev,О. О. Колоскова,Ilya Sergeev,D. Yu. Trofimov
出处
期刊:Authorea - Authorea
日期:2021-02-17
被引量:9
标识
DOI:10.22541/au.161359798.81563481/v1
摘要
Background. First vaccines for prevention of Coronavirus disease 2019 (COVID-19) are becoming available but there is a huge and unmet need for specific forms of treatment. In this study we aimed to evaluate the potent anti-SARS-CoV-2 effect of siRNA both in vitro and in vivo. Methods. To identify most effective molecule out of a panel of 15 in silico designed siRNAs, an in vitro screening system based on vectors expressing SARS-CoV-2 genes fused with the firefly luciferase reporter gene and SARS-CoV-2-infected cells was used. The most potent siRNA, siR-7, was modified by Locked nucleic acids (LNAs) to obtain siR-7-EM with increased stability and was formulated with the peptide dendrimer KK-46 for enhancing cellular uptake to allow topical application by inhalation of the final formulation - siR-7-EM/KK-46. Using the Syrian Hamster model for SARS-CoV-2 infection the antiviral capacity of siR-7-EM/KK-46 complex was evaluated. Results. We identified the siRNA, siR-7, targeting SARS-CoV-2 RNA-dependent RNA polymerase (RdRp) as the most efficient siRNA inhibiting viral replication in vitro. Moreover, we have shown that LNA-modification and complexation with the designed peptide dendrimer enhanced the antiviral capacity of siR-7 in vitro. We demonstrated significant reduction of virus titer and total lung inflammation in the animals exposed by inhalation of siR-7-EM/KK-46 in vivo. Conclusions. Thus, we developed a therapeutic strategy for COVID-19 based on inhalation of a modified siRNA-peptide dendrimer formulation.
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