Litcius/Paper detail

RNA-based translation activators for targeted gene upregulation

Yang Cao, Huachun Liu, Shannon S. Lu, Krysten A. Jones, Anitha P. Govind, Okunola Jeyifous, Christine Q. Simmons, Negar Tabatabaei, William N. Green, J. Lloyd Holder, Soroush Tahmasebi, Alfred L. George, Bryan C. Dickinson

2023Nature Communications46 citationsDOIOpen Access PDF

Abstract

Technologies capable of programmable translation activation offer strategies to develop therapeutics for diseases caused by insufficient gene expression. Here, we present "translation-activating RNAs" (taRNAs), a bifunctional RNA-based molecular technology that binds to a specific mRNA of interest and directly upregulates its translation. taRNAs are constructed from a variety of viral or mammalian RNA internal ribosome entry sites (IRESs) and upregulate translation for a suite of target mRNAs. We minimize the taRNA scaffold to 94 nucleotides, identify two translation initiation factor proteins responsible for taRNA activity, and validate the technology by amplifying SYNGAP1 expression, a haploinsufficiency disease target, in patient-derived cells. Finally, taRNAs are suitable for delivery as RNA molecules by lipid nanoparticles (LNPs) to cell lines, primary neurons, and mouse liver in vivo. taRNAs provide a general and compact nucleic acid-based technology to upregulate protein production from endogenous mRNAs, and may open up possibilities for therapeutic RNA research.

Topics & Concepts

Translation (biology)RNACell biologyDownregulation and upregulationMessenger RNAInternal ribosome entry siteProtein biosynthesisBiologyRibosomeMolecular biologyGeneGeneticsRNA Research and SplicingRNA Interference and Gene DeliveryRNA modifications and cancer