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Fusion protein engineered exosomes for targeted degradation of specific RNAs in lysosomes: a proof‐of‐concept study

Zhelong Li, Xueying Zhou, Xiaotong Gao, Danna Bai, Yan Dong, Wenqi Sun, Lianbi Zhao, Mengying Wei, Xuekang Yang, Guodong Yang, Lijun Yuan

2020Journal of Extracellular Vesicles79 citationsDOIOpen Access PDF

Abstract

Therapeutically intervening the function of RNA in vivo remains a big challenge. We here developed an exosome-based strategy to deliver engineered RNA-binding protein for the purpose of recruiting specific RNA to the lysosomes for degradation. As a proof-of-principle study, RNA-binding protein HuR was fused to the C-terminus of Lamp2b, a membrane protein localized in both exosome and lysosome. The fusion protein was able to be incorporated into the exosomes. Moreover, exosomes engineered with Lamp2b-HuR successfully decreased the abundance of RNA targets possibly via lysosome-mediated degradation, especially when the exosomes were acidified. The system was specifically effective in macrophages, which are lysosome enriched and resistant to routine transfection mediated RNAi strategy. In the CCl4-induced liver injury mouse model, we found that delivery of acidified exosomes engineered with Lamp2b-HuR significantly reduced liver fibrosis, together with decreased miR-155 and other inflammatory genes. In summary, the established exosome-based RNA-binding protein delivery strategy, namely "exosome-mediated lysosomal clearance", takes the advantage of exosome in targeted delivery and holds great promise in regulating a set of genes in vivo.

Topics & Concepts

ExosomeMicrovesiclesLysosomeRNACell biologyFusion proteinRNA interferenceMessenger RNABiologyChemistrymicroRNAGeneBiochemistryRecombinant DNAEnzymeExtracellular vesicles in diseaseRNA Interference and Gene DeliveryRNA Research and Splicing