Ultrasmall Enzyme-Powered Janus Nanomotor Working in Blood Circulation System

Zili Yang, Liangmeng Wang, Zhixue Gao, Xiaomeng Hao, Ming Luo, Zili Yu, Jianguo Guan

Journal:ACS Nano

IF:17.1

DOI:10.1021/acsnano.3c00548

PMID:36892585

Published:2023-03-09

research field:生物医学工程纳米技术材料科学生物物理学

Abstract

Injectable chemically powered nanomotors may revolutionize biomedical technologies, but to date, it is a challenge for them to move autonomously in the blood circulation system and they are too large in size to break through the biological barriers therein. Herein, we report a general scalable colloidal chemistry synthesis approach for the fabrication of ultrasmall urease-powered Janus nanomotors (UPJNMs) that have a size (100–30 nm) meeting the requirement to break through the biological barriers in the blood circulation system and can efficiently move in body fluids with only endogenous urea as fuel. In our protocol, the two hemispheroid surfaces of eccentric Au−polystyrene nanoparticles are stepwise grafted with poly(ethylene glycol) brushes and ureases via selective etching and chemical coupling, respectively, forming the UPJNMs. The UPJNMs have lasting powerful mobility with ionic tolerance and positive chemotaxis, while they are able to be dispersed steadily and self-propelled in real body fluids, as well as demonstrate good biosafety and a long circulation time in the blood circulation system of mice. Thus, the as-prepared UPJNMs are promising as an active theranostics nanosystem for future biomedical applications.

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