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Bioengineered Bacteriophage-Like Nanoparticles as RNAi Therapeutics to Enhance Radiotherapy against Glioblastomas

Hao‐Han Pang, Chiung-Yin Huang, Pin‐Yuan Chen, Nan‐Si Li, Ying‐Pei Hsu, Jan-Kai Wu, Hsiu‐Fang Fan, Kuo‐Chen Wei, Hung‐Wei Yang

2023ACS Nano30 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Since glioblastomas (GBMs) are radioresistant malignancies and most GBM recurrences occur in radiotherapy, increasing the effectiveness of radiotherapy by gene-silencing has recently attracted attention. However, the difficulty in precisely tuning the composition and RNA loading in nanoparticles leads to batch-to-batch variations of the RNA therapeutics, thus significantly restricting their clinical translation. Here, we bioengineer bacteriophage Qβ particles with a designed broccoli light-up three-way junction (b-3WJ) RNA scaffold (contains two siRNA/miRNA sequences and one light-up aptamer) packaging for the silencing of genes in radioresistant GBM cells. The in vitro results demonstrate that the cleavage of de novo designed b-3WJ RNA by Dicer enzyme can be easily monitored in real-time using fluorescence microscopy, and the TrQβ@b-3WJ Let-7g siEGFR successfully knocks down EGFR and IKKα simultaneously and thereby inactivates NF-κB signaling to inhibit DNA repair. Delivery of TrQβ@b-3WJ Let-7g siEGFR through convection-enhanced delivery (CED) infusion followed by 2Gy X-ray irradiation demonstrated that the median survival was prolonged to over 60 days compared with the 2Gy X-ray irradiated group (median survival: 31 days). Altogether, the results of this study could be critical for the design of RNAi-based genetic therapeutics, and CED infusion serves as a powerful delivery system for promoting radiotherapy against GBMs without evidence of systemic toxicity.

Topics & Concepts

RadioresistanceRNA interferenceDicerGene silencingCancer researchRadiation therapyRNASmall interfering RNADNA repairmicroRNAChemistryBiologyGeneMedicineGeneticsInternal medicineRNA Interference and Gene DeliveryBacteriophages and microbial interactionsAdvanced biosensing and bioanalysis techniques
Bioengineered Bacteriophage-Like Nanoparticles as RNAi Therapeutics to Enhance Radiotherapy against Glioblastomas | Litcius