Genetically Encoded Light-Up RNA Amplifier Dissecting MicroRNA Activity in Live Cells.

Live cell dissection of microRNA activities is crucial for basic and translational medicine, but current hybridization-based strategies may fail to dissect surrounding-dependent activities. Here, we develop a genetically encoded miRNA-induced light-up RNA amp lifier (iLAMP) that enables fast-activated, signal-amplified, fluorogenic imaging of miRNA activities in live cells. iLAMP responds to miRNA targets in the mode of "activation upon cleavage", in which the light-up RNA aptamer restores its fluorescence rapidly upon cleavage by the RNA-induced silencing complex. We demonstrate that iLAMP affords substantial signal amplification of ∼100-fold and high specificity in single nucleotide discrimination because of the miRNA-mediated cyclic cleavage. Combined with a Mango RNA aptamer reference module and a pseudoknot terminal stabilizer, iLAMP is shown for quantitative ratiometric imaging and dynamic monitoring of miRNA activities under exogenous stimulations. iLAMP is featured by a modular "plug and play" design and can be readily adapted to the detection of other miRNAs, highlighting its potential in tracking cell differentiation and screening miRNA therapeutics.