Login / Signup

Synthetic Polypeptide Bioadhesive Based on Cation-π Interaction and Secondary Structure.

Liufen KongMei GaoJiangyan ShiChuanzhuang ZhaoChongyi Chen
Published in: ACS macro letters (2024)
Bioadhesives have garnered widespread attention in the biomedical field, for wound healing and tissue sealing. However, challenges exist due to the inferior performance of bioadhesives, including weak adhesion, poor biocompatibility, or lack of biodegradability. In this work, we demonstrate the fabrication of hydrogel adhesive based on polypeptides composed of lysine and glutamic acid. The cation-π interaction between the ammonium cations and phenyl groups endows the hydrogel with strong cohesion, and the hydrophobicity of the phenyl group significantly enhances the interaction between polypeptides and the substrate interface, leading to excellent adhesive performance. The equivalent molar ratio of ammonium cations and the phenyl group is beneficial for the enhancement of adhesiveness. Furthermore, we discover that the polypeptides with an α-helix exhibit better adhesiveness than the polypeptides with a β-sheet because the α-helical structure can increase the exposure of the side group on the polypeptide surface, which further strengthens the interaction between polypeptides and the substrate. Besides, this synthetic polypeptide adhesive can seal the tissue quickly and remain intact in water. This adhesive holds significant promise for application in wound healing and tissue sealing, and this study provides insight into the development of more peptide-based adhesives.
Keyphrases
  • wound healing
  • ionic liquid
  • drug delivery
  • tissue engineering
  • working memory
  • machine learning
  • amino acid
  • big data
  • cystic fibrosis
  • staphylococcus aureus
  • biofilm formation
  • cell migration
  • cell adhesion