Orthogonal Demethylase-Activated Deoxyribozyme for Intracellular Imaging and Gene Regulation

The epigenetic modification of nucleic acids represents a versatile approach for achieving high-efficient control over gene expression and transcription and could dramatically expand their biosensing and therapeutic applications. Demethylase-involved removal of N6-methyladenine (m(6)A) represents one of the vital epigenetic reprogramming events, yet its direct intracellular evaluation and as-guided gene regulation are extremely rare. The endonuclease-mimicking deoxyribozyme (DNAzyme) is a catalytically active DNA that enables the site-specific cleavage of the RNA substrate, and several strategies have imparted the magnificent responsiveness to DNAzyme by using chemical and light stimuli. However, the epigenetic regulation of DNAzyme has remained largely unexplored, leaving a significant gap in responsive DNA nanotechnology. Herein, we reported an epigenetically responsive DNAzyme system through the in vitro selection of an exquisite m(6)A-caged DNAzyme that could be specifically activated by FTO (fat mass and obesity-associated protein) demethylation for precise intracellular imaging-directed gene regulation. Based on a systematic investigation, the active DNAzyme configuration was potently disrupted by the site-specific incorporation of m(6)A modification and subsequently restored into the intact DNAzyme structure via the tunable FTO-specific removal of m(6)A-caging groups under a variety of conditions. This orthogonal demethylase-activated DNAzyme amplifier enables the robust and accurate monitoring of FTO and its inhibitors in live cells. Moreover, the simple demethylase-activated DNAzyme facilitates the assembly of an intelligent self-adaptive gene regulation platform for knocking down demethylase with the ultimate apoptosis of tumor cells. As a straightforward and scarless m(6)A removal strategy, the demethylase-activated DNAzyme system offers a versatile toolbox for programmable gene regulation in synthetic biology.

Automated summary

The study introduces an epigenetically responsive DNAzyme system that can be specifically activated by FTO demethylation for precise intracellular imaging-directed gene regulation, offering a versatile toolbox for programmable gene regulation in synthetic biology.