H. Martin-Gómez et al. Chemically Diverse Multifunctional Peptide Platforms with Antimicrobial and Cell Adhesive Properties. ChemBioChem

H. Martin-Gómez, L. Oliver-Cervelló, J. Buxadera-Palomero, M.P. Ginebra, C. Mas-Moruno. Chemically Diverse Multifunctional Peptide Platforms with Antimicrobial and Cell Adhesive Properties. ChemBioChem 2020, 21, 1–7.

doi: doi.org/10.1002/cbic.202000670

Abstract

Bacterial infections and incomplete biomaterial integration are major problems that can lead to the failure of medical implants. However, simultaneously addressing these two issues remains a challenge. Here, we present a chemical peptide library based on a multifunctional platform containing the antimicrobial peptide LF1‐11 and the cell‐adhesive motif RGD. The scaffolds were customized with catechol groups to ensure straightforward functionalization of the implant surface, and linkers of different length to assess the effect of peptide accessibility on the biological response. The peptidic platforms significantly improved the adhesion of mesenchymal stem cells and showed antimicrobial effects against Staphylococcus aureus. Of note is that peptides bearing spacers that were too long displayed the lowest efficiency. Subsequently, we designed a platform replacing linear RGD by cyclic RGD; this further enhanced eukaryotic cell adhesion while retaining excellent antimicrobial properties, thus being a suitable candidate for tissue engineering applications.