A colorimetric assay for cholesterol based on the encapsulation of multienzyme in leaf-shape crossed ZIF-L

The serum cholesterol level is an important indicator of healthy and there is a great necessity for frequent cholesterol monitoring to some cardiovascular-related diseases, which puts forward higher requirements for point-of-care testing (POCT) of cholesterol. In this work, a cascade catalytic system of cholesterol is developed by encapsulation of cholesterol oxidase (ChOx) and PdCuAu nanoparticles into zeolitic imidazolate framework-L (ChOx/PCA@ZIF-L). Results indicate that ZIF-L carrier can significantly increase the catalytic activity of single or multiple enzymes, due to its high loading capacity and efficient molecular transport. Under the optimal conditions, the absorbance of reaction system performs linear relationships with the concentration of cholesterol in two intervals from 0.0005 mmol/L to 1.0000 mmol/L, with a limit of detection of 0.2176 μmol/L. The proposed colorimetric strategy based on ChOx/PCA@ZIF-L performs a good agreement with the results provided by chemiluminescence method for the serum cholesterol detection. Interestingly, a simple paper-based sensing system is constructed through a pre-reaction-transfer operation, which gets rid of the complex pre-processing requirements of traditional operations on filter paper. The presented strategy allows for the sensitive, convenient, costless assay of serum cholesterol, and paves a new way to design the POCT device for daily monitoring of healthy. Cholesterol oxidase and PdCuAu nanoparticles are encapsulated in zeolite imidazole framework-L to establish a cascade catalytic system for cholesterol detection by colorimetry. And a simple paper-based sensing system is constructed through a pre-reaction-transfer operation, which paves a new way to design the point-of-care testing device for daily monitoring of healthy.