Mixed-charge glycopolypeptides as antibacterial coatings with long-term activity

Abstract

Planktonic bacteria adhere and subsequently form biofilms on implantable medical devices can cause severe infections that have become the major types of hospital-acquired infections. Traditional coatings for the implants are frequently lack of long-term antifouling and bactericidal activities. It is still a big challenge to simultaneously improve the antifouling and bactericidal activities of the coatings. Herein, we report that mixed-charge glycopolypeptide coatings are of long-term antibacterial activities to efficiently inhibit the biofilm growth. The glycosylation of mixed-charge polypeptides has led to a significant improvement of both antifouling and bactericidal activities. The cooperative effect of the saccharide residues and mixed-charge residues improved the resistance of the polypeptide coatings against protein adsorption. The saccharide and l-glutamic acid (E) residues collectively enhanced the bacterial membrane-disruption of cationic l-lysine (K) residues, leading to potent bactericidal activity. Meanwhile, the glycopolypeptide coatings showed superior biocompatibility, long-term antibiofilm and anti-infection properties in two types of mouse subcutaneous infection models and one type of mouse urinary tract infection model. This work provides a new strategy to achieve antibacterial coatings with long-term activities for preventing implantable medical device associated infections.