Abstract
BackgroundSkin wound healing remains a considerable clinical challenge, thus stressing the urgent need for the development of new interventions to promote repair. Recent researches indicate that both peptides and nanoparticles may be potential therapies for the treatment of skin wounds.MethodsIn the current study, the mesoporous polydopamine (MPDA) nanoparticles were prepared and the peptide RL-QN15 that was previously identified from amphibian skin secretions and exhibited significant potential as a novel prohealing agent was successfully loaded onto the MPDA nanoparticles, which was confirmed by results of analysis of scanning electron microscopy and fourier transform infrared spectroscopy. The encapsulation efficiency and sustained release rate of RL-QN15 from the nanocomposites were determined. The prohealing potency of nanocomposites were evaluated by full-thickness injured wounds in both mice and swine and burn wounds in mice.ResultsOur results indicated that, compared with RL-QN15 alone, the prohealing potency of nanocomposites of MPDA and RL-QN15 in the full-thickness injured wounds and burn wounds in mice was increased by up to 50 times through the slow release of RL-QN15. Moreover, the load on the MPDA obviously increased the prohealing activities of RL-QN15 in full-thickness injured wounds in swine. In addition, the obvious increase in the prohealing potency of nanocomposites of MPDA and RL-QN15 was also proved by the results from histological analysis.ConclusionsBased on our knowledge, this is the first research to report that the load of MPDA nanoparticles could significantly increase the prohealing potency of peptide and hence highlighted the promising potential of MPDA nanoparticles-carrying peptide RL-QN15 for skin wound therapy.Graphic abstract
Highlights
Skin is exposed to many external and endogenous factors that can impact structure and function, making it easy to form wounds
Based on our knowledge, this is the first research to report that the load of mesoporous polydopamine (MPDA) nanoparticles could significantly increase the prohealing potency of peptide and highlighted the promising potential of MPDA nanoparticles-carrying peptide RL-QN15 for skin wound therapy
Some studies have shown that MPDA nanoparticle is an excellent delivery carrier for drugs to inhibit tumor growth [24]. This is the first research to report that the load of MPDA nanoparticles could significantly increase the prohealing potency of peptide and highlighted the nanocomposites of MPDA and RL-QN15 as a promising intervention for the acceleration of skin wounds
Summary
Skin is exposed to many external and endogenous factors that can impact structure and function, making it easy to form wounds. Physiological regulation of skin wound healing is a complex process that depends on interactions among many cell types and mediators in a highly sophisticated temporal sequence [2]. It can be interrupted by many factors, resulting in non-healing chronic wounds or unhealing skin ulcer. Skin wound healing remains a considerable clinical challenge, stressing the urgent need for the development of new interventions to promote repair. Recent researches indicate that both peptides and nanoparticles may be potential therapies for the treatment of skin wounds
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