Optical Nanobiosensor Based on Surface-Enhanced Raman Spectroscopy and Catalytic Hairpin Assembly for Early-Stage Lung Cancer Detection via Blood Circular RNA.
Luyun XuYuanmei ChenJianqing YeMin FanGuibin WengYongshi ShenZhizhong LinHuijing LinYuanji XuShangyuan FengPublished in: ACS sensors (2024)
Lung cancer has become the leading cause of cancer-related deaths globally. However, early detection of lung cancer remains challenging, resulting in poor outcomes for the patients. Herein, we developed an optical biosensor integrating surface-enhanced Raman spectroscopy (SERS) with a catalyzed hairpin assembly (CHA) to detect circular RNA (circRNA) associated with tumor formation and progression (circSATB2). The signals of the Raman reporter were considerably enhanced by generating abundant SERS "hot spots" with a core-shell nanoprobe and 2D SERS substrate with calibration capabilities. This approach enabled the sensitive (limit of detection: 0.766 fM) and reliable quantitative detection of the target circRNA. Further, we used the developed biosensor to detect the circRNA in human serum samples, revealing that patients with lung cancer had higher circRNA concentrations than healthy subjects. Moreover, we characterized the unique circRNA concentration profiles of the early stages (IA and IB) and subtypes (IA1, IA2, and IA3) of lung cancer. These results demonstrate the potential of the proposed optical sensing nanoplatform as a liquid biopsy and prognostic tool for the early screening of lung cancer.
Keyphrases
- raman spectroscopy
- label free
- gold nanoparticles
- sensitive detection
- early stage
- high resolution
- loop mediated isothermal amplification
- end stage renal disease
- real time pcr
- type diabetes
- photodynamic therapy
- metabolic syndrome
- mass spectrometry
- room temperature
- lymph node
- climate change
- insulin resistance
- weight loss
- amino acid
- neoadjuvant chemotherapy
- fluorescent probe
- living cells