Back to Search Start Over

Suppression of osteoclast multinucleation via a posttranscriptional regulation-based spatiotemporally selective delivery system

Authors :
Qingqing Wang
Haoli Wang
Huige Yan
Hongsen Tian
Yining Wang
Wei Yu
Zhanqiu Dai
Pengfei Chen
Zhaoming Liu
Ruikang Tang
Chao Jiang
Shunwu Fan
Xin Liu
Xianfeng Lin
Source :
Science advances. 8(26)
Publication Year :
2022

Abstract

Redundancy of multinucleated mature osteoclasts, which results from the excessive fusion of mononucleated preosteoclasts (pOCs), leads to osteolytic diseases such as osteoporosis. Unfortunately, the currently available clinical drugs completely inhibit osteoclasts, thus interfering with normal physiological bone turnover. pOC-specific regulation may be more suitable for maintaining bone homeostasis. Here, circBBS9, a previously unidentified circular RNA, was found to exert regulatory effects via the circBBS9/miR-423-3p/Traf6 axis in pOCs. To overcome the long-standing challenge of spatiotemporal RNA delivery to cells, we constructed biomimetic nanoparticles to achieve the pOC-specific targeted delivery of circBBS9. pOC membranes (POCMs) were extracted to camouflage cationic polymer for RNA interference with circBBS9 (POCM-NPs@siRNA/shRNA circBBS9 ). POCM-NPs endowed the nanocarriers with improved stability, accurate pOC targeting, fusogenic uptake, and reactive oxygen species–responsive release. In summary, our findings may provide an alternative strategy for multinucleated cell–related diseases that involves restriction of mononucleated cell multinucleation through a spatiotemporally selective delivery system.

Details

ISSN :
23752548
Volume :
8
Issue :
26
Database :
OpenAIRE
Journal :
Science advances
Accession number :
edsair.doi.dedup.....a2b166fd7e738cf09bd62f5c47ba3c1f