• Title of article

    Enhanced neurite growth from mammalian neurons in three-dimensional salmon fibrin gels

  • Author/Authors

    Yo-El Ju، نويسنده , , Paul A. Janmey، نويسنده , , Margaret E. McCormick، نويسنده , , Evelyn S. Sawyer، نويسنده , , Lisa A. Flanagan، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2007
  • Pages
    12
  • From page
    2097
  • To page
    2108
  • Abstract
    Three-dimensional fibrin matrices have been used as cellular substrates in vitroand as bridging materials for central nervous system repair. Cells can be embedded within fibrin gels since the polymerization process is non-toxic, making fibrin an attractive scaffold for transplanted cells. Most studies have utilized fibrin prepared from human or bovine blood proteins. However, fish fibrin may be well suited for neuronal growth since fish undergo remarkable central nervous system regeneration and molecules implicated in this process are present in fibrin. We assessed the growth of mammalian central nervous system neurons in bovine, human, and salmon fibrin and found that salmon fibrin gels encouraged the greatest degree of neurite (dendrite and axon) growth and were the most resistant to degradation by cellular proteases. The neurite growth-promoting effect was not due to the thrombin used to polymerize the gels nor to any copurifying plasminogen. Copurified fibronectin partially accounted for the effect on neurites, and blockade of fibrinogen/fibrin-binding integrins markedly decreased neurite growth. Anion exchange chromatography revealed different elution profiles for salmon and mammalian fibrinogens. These data demonstrate that salmon fibrin encourages the growth of neurites from mammalian neurons and suggest that salmon fibrin may be a beneficial scaffold for neuronal regrowth after CNS injury.
  • Keywords
    nerve regeneration , Spinal cord , Cortical , Scaffold , integrin , matrix
  • Journal title
    Biomaterials
  • Serial Year
    2007
  • Journal title
    Biomaterials
  • Record number

    547494