Smart GHK-Cu Coatings Deliver Copper for Enhanced Healing

The peptide GHK-Cu is renowned for its potent wound healing, anti-inflammatory, and antioxidant properties, making it a promising therapeutic agent. However, achieving controlled and sustained delivery of GHK-Cu to target sites, especially in dynamic environments like wounds, remains a significant challenge. This study addresses the need for an advanced delivery system by focusing on developing a stable, pH-responsive coating for GHK-Cu using electrophoretic deposition and evaluating its biological activity.

The study successfully demonstrated the creation of stable GHK-Cu loaded MSN-chitosan coatings via electrophoretic deposition, achieving a high loading efficiency of 88%. Crucially, the coatings exhibited excellent pH-responsive copper release kinetics, with a 3.5-fold higher copper release observed at an acidic pH of 5.5 (mimicking wound environments) compared to a neutral pH of 7.4. This controlled release profile translated into significant biological benefits in vitro. > The GHK-Cu loaded coatings notably enhanced fibroblast cell proliferation by 27% and migration by 18% compared to uncoated controls, indicating strong regenerative potential. Furthermore, the released copper demonstrated potent antibacterial activity, achieving a 92% reduction in Staphylococcus aureus growth and an 85% reduction in Escherichia coli growth, both with p<0.01 significance.