Silver-Decorated Polymeric Micelles Combined with Curcumin for Enhanced Antibacterial Activity

Huang, F (Huang, Fan)^[ 1,2 ] ; Gao, Y (Gao, Yang)^[ 1,2 ] ; Zhang, YM (Zhang, Yumin)^[ 1,2 ] ; Cheng, TJ (Cheng, Tangjian)^[ 3 ] ; Ou, HL (Ou, Hanlin)^[ 3 ] ; Yang, LJ (Yang, Lijun)^[ 1,2 ] ; Liu, JJ (Liu, Jinjian)^[ 1,2 ] ; Shi, LQ (Shi, Linqi)^[ 3 ] ; Liu, JF (Liu, Jianfeng)^[ 1,2 ]

ACS APPLIED MATERIALS & INTERFACES, 2017, 9(20): 16881-16890

DOI: 10.1021/acsami.7b03347

 WOS:000402498600016

Abstract

Because of the mounting prevalence of complicated infections induced by multidrug-resistant bacteria, it is imperative to develop innovative and efficient antibacterial agents. In this work, we design a novel polymeric micelle for simultaneous decorating of silver nanoparticles and encapsulating of curcumin as a combination strategy to improve the antibacterial efficiency. In the constructed combination system, silver nanoparticles were decorated in the micellar shell because of the in situ reduction of silver ions, which were absorbed by the poly(aspartic acid) (PAsp) chains in the shell. Meanwhile, natural curcumin was encapsulated into the poly(epsilon-caprolactone) (PCL) core of the micelle through hydrophobic interaction. This strategy could prevent aggregation of silver nanoparticles and improve the water solubility of curcumin at the same time, which showed enhanced antibacterial activity toward Gram-negative P.aeruginosa and Gram-positive S.aureus compared with sliver-decorated micelle and curcumin-loaded micelle alone, due to the cooperative antibacterial effects of the silver nanoparticles and curcumin. Furthermore, the achieved combinational micelles had good biocompatibility and low hemolytic activity. Thus, our study provides a new pathway in the rational design of combination strategy for efficiently preventing the ubiquitous bacterial infections.