Scientific publications

Engineering U1-Based Tetracycline-Inducible Riboswitches to Control Gene Expression in Mammals. Scientific Publication

Dec 12, 2023 | Magazine: ACS Publications

Eric Rovira 1, Beatriz Moreno 2, Nerea Razquin 1, Lorea Blázquez 3 4 5, Ruben Hernández-Alcoceba 1 6 7, Puri Fortes 1 6 7 8, Fernando Pastor 2 6 9


Abstract

Synthetic riboswitches are promising regulatory devices due to their small size, lack of immunogenicity, and ability to fine-tune gene expression in the absence of exogenous trans-acting factors. Based on a gene inhibitory system developed at our lab, termed U1snRNP interference (U1i), we developed tetracycline (TC)-inducible riboswitches that modulate mRNA polyadenylation through selective U1 snRNP recruitment. First, we engineered different TC-U1i riboswitches, which repress gene expression unless TC is added, leading to inductions of gene expression of 3-to-4-fold. Second, we developed a technique called Systematic Evolution of Riboswitches by Exponential Enrichment (SEREX), to isolate riboswitches with enhanced U1 snRNP binding capacity and activity, achieving inducibilities of up to 8-fold. Interestingly, by multiplexing riboswitches we increased inductions up to 37-fold.

Finally, we demonstrated that U1i-based riboswitches are dose-dependent and reversible and can regulate the expression of reporter and endogenous genes in culture cells and mouse models, resulting in attractive systems for gene therapy applications. Our work probes SEREX as a much-needed technology for the in vitro identification of riboswitches capable of regulating gene expression in vivo.

CITATION ACS Nano. 2023 Dec 12;17(23):23331-23346. doi: 10.1021/acsnano.3c01994. Epub 2023 Nov 16.