机构地区:[1]Senior Department of Orthopedics,The Fourth Medical Center of PLA General Hospital,Beijing,100091,China [2]Beijing National Laboratory for Molecular Sciences,State Key Laboratory of Polymer Physics&Chemistry,Institute of Chemistry,Chinese Academy of Sciences,Beijing,100190,China [3]Department of Orthopedics,Shanghai General Hospital,Shanghai Jiaotong University,Shanghai,200080,China [4]Department of Orthopedics,Eye Hospital China Academy of Chinese Medical Sciences,Beijing,100040,China [5]Department of Orthopedics,Second Affiliated Hospital of Naval Medical University,Shanghai,20003,China [6]University of Chinese Academy of Sciences,Beijing,100049,China
出 处:《Bioactive Materials》2022年第10期47-56,共10页生物活性材料(英文)
基 金:supported by Youth Innovation Promotion Association CAS(2019031);National Natural Science Foundation of China(51973226,81972081 and 21604093);China Postdoctoral Science Foundation(2020M683733);Military Medical Science and Technology Youth Cultivation Project(20QNPY109);Military Medical Youth Growth Program of PLA General Hospital(QNC19028);Shanghai Changning Committee of Science and Technology of China(CNKW2020Y01).
摘 要:In the current global crisis of antibiotic resistance,delivery systems are emerging to combat resistant bacteria in a more efficient manner.Despite the significant advances of antibiotic nanocarriers,many challenges like poor biocompatibility,premature drug release,suboptimal targeting to infection sites and short blood circulation time are still challenging.To achieve targeted drug delivery and enhance antibacterial activity,here we reported a kind of pH-responsive nanoparticles by simply self-assembly of an amphiphilic poly(ethylene glycol)-Schiff-vancomycin(PEG-Schiff-Van)prodrug and free Van in one drug delivery system.The acid-liable Schiff base furnished the PEG-Schiff-Van@Van with good storage stability in the neutral environment and susceptible disassembly in response to faintly acidic condition.Notably,on account of the combination of physical encapsulation and chemical conjugation of vancomycin,these nanocarriers with favorable biocompatibility and high drug loading capacity displayed a programmed drug release behavior,which was capable of rapidly reaching high drug concentration to effectively kill the bacteria at an early period and continuously exerting an bacteria-sensitive effect whenever needed over a long period.In addition,more Schiff-base moieties within the PEG-Schiff-Van@Van nanocarriers may also make great contributions on promoting the antimicrobial activity.Using this strategy,this system was designed to have programmable structural destabilization and sequential drug release due to changes in pH that were synonymous with bacterial infection sites,thereby presenting prominent antibacterial therapy both in vitro and in vivo.This work represents a synergistic strategy on offering important guidance to rational design of multifunctional antimicrobial vehicles,which would be a promising class of antimicrobial materials for potential clinical translation.
关 键 词:pH-responsive prodrug PEGylated Programmable drug release Schiff base Antibacterial activity
分 类 号:R318[医药卫生—生物医学工程]
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