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Design of a Peptide-Based Electronegative Hydrogel for the Direct Encapsulation, 3D Culturing, in Vivo Syringe-Based Delivery, and Long-Term Tissue Engraftment of Cells

  1. Author:
    Yamada, Y.
    Patel,Nimit
    Kalen,Joseph
    Schneider,Joel

  2. Author Address

    NCI, Chem Biol Lab, Ctr Canc Res, NIH, Frederick, MD 21702 USA.Leidos Biomed Res Inc, Frederick Natl Lab Canc Res, Lab Anim Sci Program, Small Anim Imaging Program, Frederick, MD 21702 USA.
    1. Year: 2019
    2. Date: SEP 25
  2. Journal: ACS APPLIED MATERIALS & INTERFACES
  3. AMER CHEMICAL SOC,
    1. 11
    2. 38
    3. Pages: 34688-34697
  5. Type of Article: Article
  6. ISSN: 1944-8244
  1. Abstract:

    Soft materials that facilitate the three-dimensional (3D) encapsulation, proliferation, and facile local delivery of cells to targeted tissues will aid cell-based therapies, especially those that depend on the local engraftment of implanted cells. Herein, we develop a negatively charged fibrillar hydrogel based on the de novo-designed self-assembling peptide AcVES3-RGDV. Cells are easily encapsulated during the triggered self-assembly of the peptide leading to gel formation. Self-assembly is induced by adjusting the ionic strength and/or temperature of the solution, while avoiding large changes in pH. The AcVES3-RGDV gel allows cell-material attachment enabling both two-dimensional and 3D cell culture of adherent cells. Gel-cell constructs display shear-thin/recovery rheological properties enabling their syringe-based delivery. In vivo cellular fluorescence as well as tissue resection experiments show that the gel supports the long-term engraftment of cells delivered subcutaneously into mice.

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External Sources

  1. View Full Text
  2. DOI: 10.1021/acsami.9b12152
  3. View record in Web of ScienceĀ®
  4. WOS: 000488322900013

Library Notes

  1. Fiscal Year: FY2019-2020
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