<p>The skin is a three-dimensional organ composed of multilayered tissues, in which the epidermis, dermis, and subcutaneous adipose layer cooperate to maintain protection, thermoregulation, and repair. Although recent advances in tissue-engineered skin substitutes have improved cutaneous regeneration, strategies that simultaneously promote dermal and adipose restoration remain limited. Here, we developed a bi-layered tissue-engineered skin scaffold with dermal–adipose architecture fabricated by conjugate electrospinning of polycaprolactone solutions containing acellular dermal matrix (ADM) or decellularized adipose tissue (DAT). The construct exhibited dual bioactivity: stimulating fibroblast proliferation and collagen remodeling in the dermal layer, while promoting adipose-derived stem cell proliferation and adipogenesis in the adipose layer. In a full-thickness nude rat wound model, the scaffold enhanced vascularization, modulated inflammation, and accelerated regeneration of both dermal and adipose tissues. These findings demonstrate a versatile platform for multilayered skin tissue engineering and provide new insight into dermal–adipose synergistic regeneration.</p> Graphical abstract <p></p>

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Conjugate electrospinning dermal-adipose bilayered skin: structural integration promoting regenerative skin remodeling

  • Zhuolun Hao,
  • Yaqi Guo,
  • Junjin Jie,
  • Wenbin Jiang,
  • Zhenxing Wang,
  • Jiaming Sun,
  • Nengqiang Guo,
  • Muran Zhou

摘要

The skin is a three-dimensional organ composed of multilayered tissues, in which the epidermis, dermis, and subcutaneous adipose layer cooperate to maintain protection, thermoregulation, and repair. Although recent advances in tissue-engineered skin substitutes have improved cutaneous regeneration, strategies that simultaneously promote dermal and adipose restoration remain limited. Here, we developed a bi-layered tissue-engineered skin scaffold with dermal–adipose architecture fabricated by conjugate electrospinning of polycaprolactone solutions containing acellular dermal matrix (ADM) or decellularized adipose tissue (DAT). The construct exhibited dual bioactivity: stimulating fibroblast proliferation and collagen remodeling in the dermal layer, while promoting adipose-derived stem cell proliferation and adipogenesis in the adipose layer. In a full-thickness nude rat wound model, the scaffold enhanced vascularization, modulated inflammation, and accelerated regeneration of both dermal and adipose tissues. These findings demonstrate a versatile platform for multilayered skin tissue engineering and provide new insight into dermal–adipose synergistic regeneration.

Graphical abstract