• Title of article

    Biomaterial-mediated retroviral gene transfer using self-assembled monolayers

  • Author/Authors

    Charles A. Gersbach، نويسنده , , Sean R. Coyer، نويسنده , , Joseph M. Le Doux، نويسنده , , Andres J. Garcia، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2007
  • Pages
    7
  • From page
    5121
  • To page
    5127
  • Abstract
    Biomaterial-mediated gene delivery has recently emerged as a promising alternative to conventional gene transfer technologies that focus on direct delivery of viral vectors or DNA-polymer/matrix complexes. However, biomaterial-based strategies have primarily targeted transient gene expression vehicles, including plasmid DNA and adenovirus particles. This study expands on this work by characterizing biomaterial properties conducive to the surface immobilization of retroviral particles and subsequent transduction of mammalian cells at the cell-material interface. Self-assembled monolayers (SAMs) of functionally-terminated alkanethiols on gold were used to establish biomaterial surfaces of defined chemical composition. Gene transfer was observed to be greater than 90% on NH2-terminated surfaces, approximately 50% on COOH-functionalized surfaces, and undetectable on CH3-terminated SAMs, similar to controls of tissue culture-treated polystyrene. Gene delivery via the NH2-SAM was further characterized as a function of retrovirus coating time, virus concentration, and cell seeding density. Finally, SAM-mediated gene delivery was comparable to fibronectin- and poly-l-lysine-based methods for gene transfer. This work is significant to establishing safe and effective gene therapy strategies, developing efficient methods for gene delivery, and supporting recent progress in the field of biomaterial-mediated gene transfer.
  • Keywords
    fibroblast , genetic engineering , gene therapy , Self-assembly , gene transfer , Alkanethiol
  • Journal title
    Biomaterials
  • Serial Year
    2007
  • Journal title
    Biomaterials
  • Record number

    547792