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(Macro)Molecular Imprinting of Proteins on PCL Electrospun Scaffolds.

Victor Perez-PuyanaPaul Andrew WieringaAntonio GuerreroAlberto RomeroLorenzo Moroni
Published in: ACS applied materials & interfaces (2021)
Biological recognition sites are very useful for biomedical purposes and, more specifically, for polymeric scaffolds. However, synthetic polymers are not capable of providing specific biological recognition sites. To solve this inconvenience, functionalization of biological moieties is typically performed, oftentimes via peptide binding. In this sense, the main task is capturing the biological complexity of a protein. This study proposes a possible alternative solution to this challenge. Our approach is based on the combination of molecular imprinting (MI) and electrospinning processes. We propose here an alternative MI approach with polymeric structures, instead of using cross-linkers and monomers as conventionally performed. Different PCL-protein scaffolds were produced via electrospinning before performing MI. Gelatin, collagen, and elastin were used as proteins. Results evidenced that the MI process conducted with PCL electrospun membranes was carried out with ionic interactions between the desired molecules and the recognition sites formed. In addition, it has been proved that MI was more efficient when using gelatin as a template. This approach opens a new stage in the development of recognition sites in scaffolds obtained with synthetic polymers and their application for biomedical purposes.
Keyphrases
  • tissue engineering
  • drug delivery
  • binding protein
  • cancer therapy
  • amino acid
  • high resolution
  • drug release
  • single molecule
  • small molecule
  • transcription factor
  • ionic liquid
  • tandem mass spectrometry