Polymer-enhanced peroxidase activity of ceria nanozyme for highly sensitive detection of alkaline phosphatase.

Nanoceria have demonstrated a wide array of catalytic activity similar to natural enzymes, holding considerable significance in the colorimetric detection of alkaline phosphatase (ALP), which is a biomarker of various biological disorders. However, the issues of physiological stability and formation of protein corona, which are strongly related to their surface chemistry, limit their practical application. In this work, CeO nanoparticles characterized by enhanced dimensional uniformity and specific surface area were synthesized, followed by encapsulation with various polymers to further increase catalytic activity and physiological stability. Notably, the CeO nanoparticles encapsulated within each polymer exhibited improved catalytic characteristics, with PAA-capped CeO exhibiting the highest performance. We further demonstrated that the PAA-CeO obtained with enhanced catalytic activity was attributed to an increase in surface negative charge. PAA-CeO enabled the quantitative assessment of AA activity within a wide concentration range of 10 to 60 μM, with a detection limit of 0.111 μM. Similarly, it allowed for the evaluation of alkaline phosphatase activity throughout a broad range of 10 to 80 U/L, with a detection limit of 0.12 U/L. These detection limits provided adequate sensitivity for the practical detection of ALP in human serum.