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Potential mechanism of the AgNCs-hydrogel in promoting the regeneration of diabetic infectious wounds.

Ruoqing LiChengshi WangLiping GouYe ZhouLinrui PengFang LiuYong Zhang
Published in: The Analyst (2023)
Diabetic infectious wound treatment is challenging due to insistent wound infections. To treat such complicated pathological diabetic infectious wounds, multifunctional materials need to be developed, and their mechanisms need to be understood. Here, we developed a material termed AgNCs-hydrogel, which is a multifunctional DNA hydrogel used as dressings by integrating it with antibacterial silver nanoclusters. The AgNCs-hydrogel was applied to promote the regeneration of diabetic infectious wounds in mice because it exhibited superior antibacterial activity and effective ROS-scavenging properties. Based on skin proteomics, we explored the potential mechanism of the AgNCs-hydrogel in treating mouse skin wounds. We found that the AgNCs-hydrogel can regulate some key proteins located primarily in the extracellular exosomes, involved in the negative regulation of the apoptotic process, and perform ATP binding to accelerate diabetic infected wound closure. Therefore, this study provided a multifunctional AgNCs-hydrogel and revealed its potential mechanism in promoting the regeneration of diabetic infectious wounds.
Keyphrases
  • wound healing
  • drug delivery
  • stem cells
  • cell death
  • cancer therapy
  • mesenchymal stem cells
  • gold nanoparticles
  • single molecule
  • insulin resistance
  • adipose tissue
  • sensitive detection