• Title of article

    Cellular recognition of synthetic peptide amphiphiles in self-assembled monolayer films

  • Author/Authors

    Teika Pakalns، نويسنده , , Kraig L. Haverstick، نويسنده , , Gregg B. Fields، نويسنده , , James B. McCarthy، نويسنده , , Daniel L. Mooradian، نويسنده , , Matthew Tirrell، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 1999
  • Pages
    15
  • From page
    2265
  • To page
    2279
  • Abstract
    The incorporation of lipidated cell adhesion peptides into self-assembled structures such as films provides the opportunity to develop unique biomimetic materials with well-organized interfaces. Synthetic dialkyl tails have been linked to the amino-terminus, carboxyl-terminus, and both termini of the cell recognition sequence Arg–Gly–Asp (RGD) to produce amino-coupled, carboxyl-coupled, and looped RGD peptide amphiphiles. All three amphiphilic RGD versions self-assembled into fairly stable mixed monolayers that deposited well as Langmuir–Blodgett films on surfaces, except for films containing amino-coupled RGD amphiphiles at high peptide concentrations. FT-IR studies showed that amino-coupled RGD head groups formed the strongest lateral hydrogen bonds. Melanoma cells spread on looped RGD amphiphiles in a concentration-dependent manner, spread indiscriminately on carboxyl-coupled RGD amphiphiles, and did not spread on amino-coupled RGD amphiphiles. Looped RGD amphiphiles promoted the adhesion, spreading, and cytoskeletal reorganization of melanoma and endothelial cells while control looped Arg–Gly–Glu (RGE) amphiphiles inhibited them. Antibody inhibition of the integrin receptor α3β1 blocked melanoma cell adhesion to looped RGD amphiphiles. These results confirm that novel biomolecular materials containing synthetic peptide amphiphiles have the potential to control cellular behavior in a specific manner.
  • Keywords
    Peptide amphiphiles , biomimetic materials , cell adhesion , Langmuir}Blodgett "lms , Cell spreading , RGD
  • Journal title
    Biomaterials
  • Serial Year
    1999
  • Journal title
    Biomaterials
  • Record number

    543396