4.8 Article

Construction of a Single-Molecule Biosensor for Antibody-Free Detection of Locus-Specific N6-Methyladenosine in Cancer Cells and Tissues

Journal

ANALYTICAL CHEMISTRY
Volume 95, Issue 12, Pages 5454-5462

Publisher

AMER CHEMICAL SOC
DOI: 10.1021/acs.analchem.3c00730

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A single-molecule fluorescent biosensor is developed for antibody-free detection of locus-specific m6A in cancer cells and tissues. The biosensor utilizes an m6A-sensitive endoribonuclease to identify and cleave unmethylated mRNA, allowing the detection of retained intact m6A-mRNA through sandwich hybrids. The biosensor demonstrates high sensitivity and can be used for monitoring cellular m6A-mRNA expression and distinguishing m6A levels in breast cancer patient tissues.
N6-Methyladenosine (m6A) has emerged as a key post -transcrip-tional regulator in mRNA metabolism, and its dysregulation is associated with multiple human diseases. Herein, we construct a single-molecule fluorescent biosensor for antibody-free detection of locus-specific m6A in cancer cells and tissues. A 5 '-biotinylated capture probe and a 3 '-hydroxylated assistant probe are designed for the recognition of specific m6A-mRNA. The m6A-sensitive endoribonuclease MazF can identify and cleave the unmethylated mRNA, and the retained intact m6A-mRNA can hybridize with assistant probes and capture probes to achieve sandwich hybrids. The sandwich hybrids are immobilized on magnetic beads (MBs) to initiate the terminal deoxynucleotidyl transferase (TdT)-assisted polymerization, facilitating the continuous incorporation of Cy5-dATP to form long Cy5-polyA tails for the production of an on-bead amplified fluorescence signal. After magnetic separation and exonuclease digestion, numerous Cy5 fluorophores are released and subsequently measured by single-molecule detection. Especially, this biosensor is implemented simply and isothermally without the involvement of either radiolabeling or m6A-specific antibody. Moreover, this biosensor shows ultrahigh sensitivity with a detection limit of 2.24 x 10-17 M, and it can discriminate a 0.01% m6A level from a large pool of coexisting counterparts. Furthermore, this biosensor can be used for monitoring cellular m6A-mRNA expression and differentiating the m6A level in the breast cancer patient tissues from that in the healthy person tissues, providing a new avenue for clinical diagnosis and epitranscriptomic research.

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