International Journal of Hyperthermia (Jan 2021)

Collagen/kerateine multi-protein hydrogels as a thermally stable extracellular matrix for 3D in vitro models

  • Kameel Zuniga,
  • Manasa Gadde,
  • Jacob Scheftel,
  • Kris Senecal,
  • Erik Cressman,
  • Mark Van Dyke,
  • Marissa Nichole Rylander

DOI
https://doi.org/10.1080/02656736.2021.1930202
Journal volume & issue
Vol. 38, no. 1
pp. 830 – 845

Abstract

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Objective To determine whether the addition of kerateine (reduced keratin) in rat tail collagen type I hydrogels increases thermal stability and changes material properties and supports cell growth for use in cellular hyperthermia studies for tumor treatment. Methods Collagen type I extracted from rat tail tendon was combined with kerateine extracted from human hair fibers. Thermal, mechanical, and biocompatibility properties and cell behavior was assessed and compared to 100% collagen type I hydrogels to demonstrate their utility as a tissue model for 3D in vitro testing. Results A combination (i.e., containing both collagen ‘C/KNT’) hydrogel was more thermally stable than pure collagen hydrogels and resisted thermal degradation when incubated at a hyperthermic temperature of 47°C for heating durations up to 60 min with a higher melting temperature measured by DSC. An increase in the storage modulus was only observed with an increased collagen concentration rather than an increased KTN concentration; however, a change in ECM structure was observed with greater fiber alignment and width with an increase in KTN concentration. The C/KTN hydrogels, specifically 50/50 C/KTN hydrogels, also supported the growth and of fibroblasts and MDA-MB-231 breast cancer cells similar to those seeded in 100% collagen hydrogels. Conclusion This multi-protein C/KTN hydrogel shows promise for future studies involving thermal stress studies without compromising the 3D ECM environment or cell growth.

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