Exploring immobilization strategies of antimicrobial peptides onto MAO-treated titanium to fight MRSA colonization and preserve osteogenic activity
Natália A. Costa, Cláudia Monteiro, Liliana Grenho, Ana R. Ribeiro, Victoria Leiro, Maria H. Fernandes, Paulo N. Lisboa-Filho, M. Cristina L. Martins

TL;DR
This study explores ways to attach antimicrobial peptides to titanium surfaces to fight MRSA infections while supporting bone growth.
Contribution
A combined strategy of PEG grafting and AMP adsorption effectively kills MRSA and supports osteogenic activity.
Findings
MSI-78 immobilization via physical adsorption or covalent grafting killed MRSA within 5 hours.
PEGylated surfaces with adsorbed AMP reduced MRSA colonization and killed 80% of adherent bacteria.
PEGylated MAO surfaces maintained cytocompatibility and promoted osteogenic response.
Abstract
Alternative therapies to systemic antibiotics are increasingly explored to prevent infections associated with bone implants. Among them, the surface functionalization of titanium with antimicrobial peptides (AMP) is particularly promising due to their broad-spectrum activity and low risk of inducing bacterial resistance. However, a critical challenge remains in achieving both effective antibacterial action and the promotion of osseointegration. This proof-of-concept study investigates different strategies for immobilizing AMP onto bioactive micro-arc oxidation (MAO) coatings on titanium, aiming to combat methicillin-resistant Staphylococcus aureus (MRSA) colonization while preserving the osseointegration potential of MAO surfaces. The peptide MSI-78 was immobilized either by physical adsorption or covalent grafting, using 1,1′-carbonyldiimidazole (CDI) coupling agent or poly(ethylene…
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Taxonomy
TopicsOrthopedic Infections and Treatments · Antimicrobial Peptides and Activities · Bone Tissue Engineering Materials
