Litcius/Paper detail

A smart multiantenna gene theranostic system based on the programmed assembly of hypoxia-related siRNAs

Xue Gong, Haizhou Wang, Ruomeng Li, Kaiyue Tan, Jie Wei, Jing Wang, Hong Chen, Jinhua Shang, Xiaoqing Liu, Jing Liu, Fuan Wang

2021Nature Communications84 citationsDOIOpen Access PDF

Abstract

The systemic therapeutic utilisation of RNA interference (RNAi) is limited by the non-specific off-target effects, which can have severe adverse impacts in clinical applications. The accurate use of RNAi requires tumour-specific on-demand conditional activation to eliminate the off-target effects of RNAi, for which conventional RNAi systems cannot be used. Herein, a tumourous biomarker-activated RNAi platform is achieved through the careful design of RNAi prodrugs in extracellular vesicles (EVs) with cancer-specific recognition/activation features. These RNAi prodrugs are assembled by splitting and reconstituting the principal siRNAs into a hybridisation chain reaction (HCR) amplification machine. EVs facilitate the specific and efficient internalisation of RNAi prodrugs into target tumour cells, where endogenous microRNAs (miRNAs) promote immediate and autonomous HCR-amplified RNAi activation to simultaneously silence multiantenna hypoxia-related genes. With multiple guaranteed cancer recognition and synergistic therapy features, the miRNA-initiated HCR-promoted RNAi cascade holds great promise for personalised theranostics that enable reliable diagnosis and programmable on-demand therapy.

Topics & Concepts

Small interfering RNAGeneHypoxia (environmental)Computational biologyCell biologyComputer scienceBiologyChemistryGeneticsRNAOxygenOrganic chemistryAdvanced biosensing and bioanalysis techniquesRNA Interference and Gene DeliveryMicroRNA in disease regulation