Dual peptide-coordinated dynamic hydrogel with antibacterial and proangiogenic activities for infected skin wounds.

Infected skin wounds represent a class of significant clinical challenges due to their complexity and the risk of delayed healing. Developing an effective wound dressing capable of promoting tissue regeneration while addressing infections is crucial. In this study, we designed a dual peptide-coordinated dynamic hydrogel with both antibacterial and proangiogenic properties, specifically tailored for treating infected skin wounds. The dynamic hydrogel was constructed using gelatin, a natural biomacromolecule with high biocompatibility, as the base material. Two functional peptides, the antibacterial melittin and angiogenic peptide, were incorporated to enhance both infection control and tissue repair. Hydrogelation was achieved through coordination interactions between gold (Au) ions and sulfhydryl groups, endowing the hydrogel with dynamic properties. The excellent biocompatibility, antibacterial efficacy and angiogenic capability of hydrogel allow it to provide structural support for wound healing while promoting cell proliferation and migration. By eradicating bacteria and stimulating new blood vessel formation, it accelerates the healing of infected wounds. Additionally, its injectability and self-healing properties make it suitable for treating irregularly shaped and deep wounds. This dual-functional hydrogel may offer a promising and minimally invasive treatment option for infected skin wounds, combining high biological safety with simplified surgical procedures.