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pH‐Sensitive Glucose‐Powered Nanomotors for Enhanced Intracellular Drug Delivery and Ferroptosis Efficiency

Yuxing Ji, Yanan Pan, MA Xue-mei, Yan Ma, Zhongxiang Zhao, Qiang He

2023Chemistry - An Asian Journal13 citationsDOI

Abstract

Abstract We propose a glucose‐powered Janus nanomotor where two faces are functionalized with glucose oxidase (GOx) and polydopamine‐Fe 3+ chelates (PDF), respectively. In the glucose fuel solution, the GOx on the one side of these Janus nanomotors catalytically decomposes glucose fuels into gluconic acid and hydrogen peroxide (H 2 O 2 ) to drive them at a speed of 2.67 μm/s. The underlying propulsion mechanism is the glucose‐based self‐diffusiophoresis owing to the generated local glucose concentration gradient by the enzymatic reaction. Based on the enhanced diffusion motion, such nanomotors with catalytic activity increase the uptake towards cells and subsequently exhibit excellent capabilities for Fe 3+ ions delivery and H 2 O 2 generation for enhancing ferroptosis efficiency for inducing cancer cell death. In particular, the Fe 3+ ions are released from nanomotors in a slightly acidic environment, and subsequently generate toxic hydroxyl radicals via Fenton reactions, which accumulation reactive oxygen species (ROS) level (~300 %) and further lipid peroxidation (LPO) strengthened ferroptosis therapy for cancer treatment. The as‐developed glucose‐powered Janus nanomotor with efficient diffusion and Fe ions delivery capabilities show great promise as a potential in biomedical applications.

Topics & Concepts

Glucose oxidaseHydrogen peroxideChemistryCatalysisJanusGluconic acidReactive oxygen speciesBiophysicsRadicalNADPH oxidaseIntracellularDrug deliveryCombinatorial chemistryBiochemistryNanotechnologyOrganic chemistryMaterials scienceEnzymeBiologyMicro and Nano RoboticsMicrotubule and mitosis dynamicsMolecular Communication and Nanonetworks
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