MOF‐Immobilized Two‐in‐One Engineered Enzymes Enhancing Activity of Biocatalytic Cascade for Tumor Therapy

Abstract

AbstractBiocatalytic systems based on enzyme cascade reactions have attracted growing interest in the field of biocatalytic medicine. However, it is a major challenge to reasonably construct enzyme cascade reactions with high stability, selectivity, and catalytic efficiency for the in vivo biocatalytic application. Herein, two‐in‐one engineered glucose oxidase (GOx‐Fe0) is fabricated by a biomineralization strategy, through which a nanozyme (Fe0NP) is anchored within the inner cavity of GOx. Then, GOx‐Fe0 is immobilized in a pH‐sensitive metal–organic framework (MOF) zeolitic imidazolate framework‐8 (ZIF‐8) to establish a stable and effective MOF‐immobilized two‐in‐one engineered enzyme, GOx‐Fe0@ZIF‐8. In vitro studies show that GOx‐Fe0@ZIF‐8 exhibits excellent stability and high pH/glucose selectivity, and the shorter spacing between cascade enzymes can increase the cascade throughput and effectively improve the reaction efficiency of the enzyme cascade. In vivo experiments exhibit that GOx‐Fe0@ZIF‐8 solves the instability and systemic toxicity of free enzymes, and achieves deep tumor penetration and significant chemodynamic therapeutic efficacy through a pH/glucose‐selective enzyme cascade reaction in tumor site. Taken together, such an orchestrated enzyme engineering strategy can effectively improve enzyme stability, selectivity, and enzyme cascade reaction efficiency via chemical transformations, and also provide a promising strategy for the application of biocatalytic cascade reactions in vivo.