The microgravity enhanced polymer-mediated siRNA gene silence by improving cellular uptake

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Biophysics Reports

R E S E A RC H A RT I C L E

The microgravity enhanced polymer-mediated siRNA gene silence by improving cellular uptake Tongren Yang1, Chanchan Yu1, Changrong Wang2, Chunhui Li1, Mengjie Zhang1, Xiaofan Luo1, Yuhua Weng1, Anjie Dong2, Xiaoqiong Li1, Yulin Deng1, Yuanyu Huang1,3& 1

2

3

School of Life Science, Advanced Research Institute of Multidisciplinary Science, Institute of Engineering Medicine, Key Laboratory of Molecular Medicine and Biotherapy, Beijing Institute of Technology, Beijing 100081, China Department of Polymer Science and Technology, School of Chemical Engineering and Technology, Key Laboratory of Systems Bioengineering of the Ministry of Education, Tianjin University, Tianjin 300072, China School of Pharmacy, Hunan University of Chinese Medicine, Changsha 410208, China

Received: 27 June 2020 / Accepted: 18 August 2020 / Published online: 23 November 2020

Graphical abstract Outer frame Inner frame

Drive motor Culture lask 5rmp

5rmp

RPM

50 nmol/L siRNA

siRNA binding

EAASc/siRNA nanomicells

EAASc NPs

Cell culture vessel

ke Upta

pH-respo n disassem sive bly

End o esc some ape

mRNA C RIS ing d a o l

Protein synthesis

mRNA cleavage

Electronic supplementary material The online version of this article (https://doi.org/10.1007/s41048-020-00121-y) contains supplementary material, which is available to authorized users. & Correspondence: [email protected] (Y. Huang)

266 | December 2020 | Volume 6 | Issue 6

Ó The Author(s) 2020

RESEARCH ARTICLE

The effects of microgravity on RNA interference

Abstract

Microgravity (MG) effect is a weightlessness phenomenon caused by the distance from the ground or low gravity of other planets outside the earth’s atmosphere. The various effects of MG have been corroborated in human and animal studies and modeled in cell-based analogs. However, the impact of MG on siRNA performance remains to be elucidated, which is crucial for aerospace medicine. In this study, we prepared nucleic acid nanomicelles (EAASc/siRNA) by using tri-block copolymer of PEG45PAMA40-P(C7A36-DBA37) (EAASc) and siRNA and explored its working mechanism under simulated microgravity (SMG) condition generated by a random positioning machine (RPM). The binding ability of EAASc to siRNA and silence activity were ﬁrstly conﬁrmed in normal gravity (NG) environment. Evaluation of PLK1 mRNA expression revealed that gene inhibition efﬁciencies were increased by 28.7% (HepG2) and 28.9% (A549) under SMG condition, compared with those under NG condition. In addition, mechanism exploration indicated that morphology and migration capability of cancer cells were signiﬁcantly changed, the internalization of EAASc/siRNA by cells was magniﬁed when the cells were incubated with RPM. No signiﬁcant difference was observed regarding the expression proﬁles of genes involved in RNA interference (RNAi) pathway, including Ago2, Dicer, TRBP, and so on. Taken together, siRNA activity was elevated under SMG condition owning to increased cellular internalization. This study, for the ﬁrst time

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The microgravity enhanced polymer-mediated siRNA gene silence by improving cellular uptake

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