Coaxial dual-path electrochemical biosensing and logic strategy-based detection of lung cancer-derived exosomal PD-L1.
Junqiu LiuZhaidong LiuChunqin ZhaoYuting JiaoBaohong LiJiaju ShiZichao ChenZhen ZhangPublished in: Nanoscale (2024)
Exosomal programmed death ligand-1 (ExoPD-L1) is a vital marker of immune activation in the early stages of tumor therapy and it can inhibit anti-tumor immune responses. However, due to the low expression of ExoPD-L1 in cancer cells, it is difficult to perform highly sensitive assays and accurately differentiate cancer sources. Therefore, we constructed a coaxial dual-path electrochemical biosensor for highly accurate identification and detection of ExoPD-L1 from lung cancer based on chemical-biological coaxial nanomaterials and nucleic acid molecular signal amplification strategies. The measurements showed that the detected ExoPD-L1 concentrations ranged from 6 × 10 2 particles per mL to 6 × 10 8 particles per mL, and the detection limit was 310 particles per mL. Compared to other sensors, the electrochemical biosensor designed in this study has a lower detection limit and a wider detection range. Furthermore, we also successfully identified lung cancer-derived ExoPD-L1 by analyzing multiple protein biomarkers expressed on exosomes through the "AND" logic strategy. This sensor platform is expected to realize highly sensitive detection and accurate analysis of multiple sources of ExoPD-L1 and provide ideas for the clinical detection of ExoPD-L1.
Keyphrases
- label free
- loop mediated isothermal amplification
- sensitive detection
- gold nanoparticles
- immune response
- nucleic acid
- real time pcr
- quantum dots
- high resolution
- poor prognosis
- drinking water
- wastewater treatment
- binding protein
- small molecule
- long non coding rna
- papillary thyroid
- lymph node metastasis
- protein protein
- cell therapy
- simultaneous determination
- electron transfer
- fluorescent probe
- living cells