pH-activated DNA nanomachine for miRNA-21 imaging to accurately identify cancer cell.
Shufen YaoXiaojia ZhaoLingyun WangFeng ChenHang GongChunyan ChenChangqun CaiPublished in: Mikrochimica acta (2022)
MicroRNA (miRNA) imaging has been employed to distinguish cancer cells from normal cells by exploiting the overexpression of miRNA in cancer. Inspired by the acidic extracellular tumor microenvironment, we designed a pH-activated DNA nanomachine to enable the specific detection of cancer cells using miRNA imaging. The DNA nanomachine was engineered by assembling two hairpins (Y1 and Y2) onto the surface of a ZIF-8 metal-organic framework (MOF), which decomposed under acidic conditions to release the adsorbed DNA hairpin molecules in situ. The released hairpins were captured by the target miRNA-21 and underwent catalytic hairpin assembly amplification between Y1 and Y2. The detection limit for miRNA assays using the DNA nanomachine was determined to be 27 pM, which is low enough for sensitive detection in living cells. Living cell imaging of miRNA-21 further corroborated the application of the DNA nanomachine in the identification of cancer cell.
Keyphrases
- circulating tumor
- single molecule
- cell free
- high resolution
- living cells
- nucleic acid
- sensitive detection
- metal organic framework
- papillary thyroid
- loop mediated isothermal amplification
- circulating tumor cells
- cell proliferation
- squamous cell carcinoma
- ionic liquid
- mass spectrometry
- quantum dots
- fluorescent probe
- particulate matter
- heavy metals
- label free
- bone marrow
- risk assessment
- young adults
- real time pcr