Label-free immunoassay based on chemiluminescence-functionalized magnetic mesoporous nanoparticles for rapid detection of neuron-specific enolase.

Lung cancer, as one of the cancers with the highest morbidity and mortality rates in the world, requires accurate detection of its vital serum marker, neuron-specific enolase (NSE), which is a key challenge for early detection of lung cancer. However, traditional chemiluminescence immunoassay (CLIA) methods rely on labeled antibodies (Abs) and suffer from complex operations and high costs. In this work, a label-free CLIA based on CL-functionalized mesoporous magnetic nanoparticles (CuFeO@mSiO-Cys-Luminol-Au NPs) is developed for the rapid and sensitive detection of NSE. The material combines the advantages of magnetic separation, mesoporous loading, catalytic enhancement, and biorecognition. CuFeO NPs offer efficient magnetic separation, while the mesoporous silica (mSiO) layer is effectively loaded with luminol to amplify CL signals. L-cysteine (L-Cys) ensures the uniform distribution of luminol and gold nanoparticles (Luminol-Au NPs), with these Au NPs immobilizing Abs through Au-S and Au-N bonds, achieving high-density biocoupling. The constructed label-free CLIA enables highly sensitive detection of NSE without Abs labeling. The results show that the NSE concentration is linearly correlated with the CL intensity in the range 1.0 × 10 ~ 1.0 × 10 g/mL, and the detection limit is as low as 2.3 × 10 g/mL. The proposed method demonstrates excellent selectivity, stability, and anti-interference capability for the detection of NSE in human serum samples.