posted on 2017-05-18, 12:45authored bySi-Eun Kim, Parker W. Lee, Jonathan K. Pokorski
Wound healing is modulated by complex
spatial and temporal regulation
of growth factors within a wound site. Regenerative medicine seeks
to generate materials that can mimic this environment for the healing
of chronic or traumatic wounds. Herein, we report a programmed release
of epidermal growth factor (EGF) from coextruded polymer fiber patches,
which is triggered by the natural biological cascade of wound healing.
Genetically engineered EGF containing a matrix metalloproteinase (MMP)
cleavage site was covalently conjugated to a nonwoven poly(ε-caprolactone)
(PCL) fiber mat fabricated by multilayered melt coextrusion. The genetically
modified EGF showed rapid release in the presence of a biological
trigger, MMP-9, while a control protein showed negligible release.
The biologically responsive fiber mat dramatically enhanced proliferation
and migration of human keratinocytes in the presence of MMP-9. This
study describes the release of a critical wound-healing growth factor
as triggered by the biology inherent in the healing process.