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Antimicrobial hydrogel loaded with broccoli exosomes promotes anti-scarring healing of MRSA-infected wounds

Xuzhou Duan, Jie Li, Runze Gao, Yongchao Zhou, Renzhi Chen, Yan Shang, Hongrui Wang, Jia Chen, Shuogui Xu

2025Materials Today Bio8 citationsDOIOpen Access PDF

Abstract

The treatment of methicillin-resistant staphylococcus aureus (MRSA)-infected wounds is severely challenged by antibiotic resistance and persistent inflammation. In this study, a photocrosslinked composite hydrogel material (SK@E-Au@Exos) was designed using silk protein methacryloyl hydrogel (SK) as a carrier loaded with broccoli-derived exosomes (Bro-Exos) and epigallocatechin gallate-gold nanoparticles (E-Au NPs). The material promoted scarless wound repair through synergistic anti-infection combined with immune regeneration modulation. In vitro experiments showed that SK@E-Au@Exos has excellent biocompatibility and can rapidly kill MRSA and E.coli, remove Reactive Oxygen Species (ROS), inhibit inflammation, and promote cell proliferation, migration, and vascularization. Importantly, SK@E-Au@Exos can regulate the immune regenerative microenvironment by inhibiting the Nuclear Factor kappa B (NF-kB) pathway and driving the macrophage to an anti-inflammatory phenotype. In a mouse MRSA-infected wound model, SK@E-Au@Exos resisted infection, scavenged ROS, inhibited inflammation, and promoted collagen ordering and neovascularization, ultimately realizing scarless healing of the infected wound. This study demonstrated the ability of SK@E-Au@Exos to promote the temporal regulation of "antibacterial-anti-inflammatory-regenerative" in wounds and revealed the molecular mechanism of SK@E-Au@Exos in regulating the immune microenvironment through key signaling pathways. In summary, SK@E-Au@Exos effectively promotes anti-infection and anti-scar healing of wounds infected with multidrug-resistant bacteria through its photothermal sterilization effect and exosome-controlled release of anti-inflammatory and repair-promoting substances. This provides an innovative strategy for the clinical treatment of wounds infected with drug-resistant bacteria, combining antibacterial and regenerative functions.

Topics & Concepts

AntimicrobialMicrovesiclesWound healingMicrobiologyStaphylococcus aureusMedicineChemistryImmunologyBiologyBacteriamicroRNABiochemistryGeneGeneticsRNA Interference and Gene DeliveryExtracellular vesicles in diseaseSilk-based biomaterials and applications
Antimicrobial hydrogel loaded with broccoli exosomes promotes anti-scarring healing of MRSA-infected wounds | Litcius