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Silk‐Inspired In Situ Hydrogel with Anti‐Tumor Immunity Enhanced Photodynamic Therapy for Melanoma and Infected Wound Healing

Xiaoxuan Tang, Xiaoli Chen, Siming Zhang, Xinyi Gu, Ronghua Wu, Tingting Huang, Zhihao Zhou, Cheng Sun, Jue Ling, Mei Liu, Yumin Yang

2021Advanced Functional Materials117 citationsDOI

Abstract

Abstract Easy cancer recurrence and wound infections have been clinical challenges after surgical treatment of melanoma. Herein, a silk‐inspired in situ gelation system containing methacrylated silk fibroin (SF) and chlorine e6 for improved cancer therapy with enhanced wound healing is developed. Favored by the macrophage recruitment capacity of the SF hydrogel, promising antitumor immune responses can be turned “on” via near infrared irradiation in a controllable manner to achieve combination therapy with photodynamic therapy to significantly suppress melanoma recurrence. Moreover, the effective photodynamic antibacterial activity of this bioactive system with the capacity of light‐controllable modulating macrophage phenotype promotes remarkable tissue ingrowth with hair follicle regeneration for Staphylococcus aureus infected wound healing. Thus, this multifunctional silk‐based hydrogel system, as a desirable wound dressing, provides a new platform for promising melanoma therapy and skin regeneration.

Topics & Concepts

FibroinPhotodynamic therapyWound healingMelanomaRegeneration (biology)Materials scienceSelf-healing hydrogelsCancer researchMacrophageMedicineSILKBiologyChemistryImmunologyIn vitroCell biologyPolymer chemistryBiochemistryOrganic chemistryComposite materialSilk-based biomaterials and applicationsNanoplatforms for cancer theranosticsAntimicrobial Peptides and Activities
Silk‐Inspired In Situ Hydrogel with Anti‐Tumor Immunity Enhanced Photodynamic Therapy for Melanoma and Infected Wound Healing | Litcius