Issue 8, 2023

High-fidelity imaging of intracellular microRNA via a bioorthogonal nanoprobe

Abstract

The spatiotemporal visualization of intracellular microRNA (miRNA) plays a critical role in the diagnosis and treatment of malignant disease. Although DNAzyme-based biosensing has been regarded as the most promising candidate, inefficient analytical resolution is frequently encountered. Here, we propose a bioorthogonal approach toward high-fidelity imaging of intracellular miRNA by designing a multifunctional nanoprobe that integrates MnO2 nanosheet-mediated intracellular delivery and activation by a fat mass and obesity-associated protein (FTO)-switched positive feedback. MnO2 nanosheets facilitate nanoprobe delivery and intracellular DNAzyme cofactors are released upon glutathione-triggered reduction. Meanwhile, an m6A-caged DNAzyme probe could be bioorthogonally activated by intracellular FTO to eliminate potential off-target activation. Therefore, the activated DNAzyme probe and substrate probe could recognize miRNA to perform cascade signal amplification in the initiation of the release of Mn2+ from MnO2 nanosheets. This strategy realized high-fidelity imaging of intracellular aberrant miRNA within tumor cells with a satisfactory detection limit of 9.7 pM, paving the way to facilitate clinical tumor diagnosis and prognosis monitoring.

Graphical abstract: High-fidelity imaging of intracellular microRNA via a bioorthogonal nanoprobe

Supplementary files

Article information

Article type
Paper
Submitted
15 Jan 2023
Accepted
28 Feb 2023
First published
01 Mar 2023

Analyst, 2023,148, 1682-1693

High-fidelity imaging of intracellular microRNA via a bioorthogonal nanoprobe

H. Chen, X. Chen, Y. Chen, C. Zhang, Z. Sun, J. Mo, Y. Wang, J. Yang, D. Zou and Y. Luo, Analyst, 2023, 148, 1682 DOI: 10.1039/D3AN00088E

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