Pharmaceuticals (May 2024)

Hydrogen Sulfide Delivery to Enhance Bone Tissue Engineering Cell Survival

  • Soheila Ali Akbari Ghavimi,
  • Trent J. Faulkner,
  • Rama Rao Tata,
  • August J. Hemmerla,
  • Samantha E. Huddleston,
  • Farnoushsadat Rezaei,
  • Ethan S. Lungren,
  • Rui Zhang,
  • Erin E. Bumann,
  • Bret D. Ulery

DOI
https://doi.org/10.3390/ph17050585
Journal volume & issue
Vol. 17, no. 5
p. 585

Abstract

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Though crucial for natural bone healing, local calcium ion (Ca2+) and phosphate ion (Pi) concentrations can exceed the cytotoxic limit leading to mitochondrial overload, oxidative stress, and cell death. For bone tissue engineering applications, H2S can be employed as a cytoprotective molecule to enhance mesenchymal stem cell (MSC) tolerance to cytotoxic Ca2+/Pi concentrations. Varied concentrations of sodium hydrogen sulfide (NaSH), a fast-releasing H2S donor, were applied to assess the influence of H2S on MSC proliferation. The results suggested a toxicity limit of 4 mM for NaSH and that 1 mM of NaSH could improve cell proliferation and differentiation in the presence of cytotoxic levels of Ca2+ (32 mM) and/or Pi (16 mM). To controllably deliver H2S over time, a novel donor molecule (thioglutamic acid—GluSH) was synthesized and evaluated for its H2S release profile. Excitingly, GluSH successfully maintained cytoprotective level of H2S over 7 days. Furthermore, MSCs exposed to cytotoxic Ca2+/Pi concentrations in the presence of GluSH were able to thrive and differentiate into osteoblasts. These findings suggest that the incorporation of a sustained H2S donor such as GluSH into CaP-based bone graft substitutes can facilitate considerable cytoprotection, making it an attractive option for complex bone regenerative engineering applications.

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