Litcius/Paper detail

Hydrogel with ROS scavenging effect encapsulates BR@Zn-BTB nanoparticles for accelerating diabetic mice wound healing via multimodal therapy

Jingjing Hu, Xue-Zhao Yu, Shuqin Zhang, Yuxuan Zhang, Xiaolin Chen, Zhu-Jun Long, Hua-Zhong Hu, Denghui Xie, Wen‐Hua Zhang, Jin-Xiang Chen, Qun Zhang

2023iScience29 citationsDOIOpen Access PDF

Abstract

The strategies for eliminating excess reactive oxygen species (ROS) or suppressing inflammatory responses on the wound bed have proven effective for diabetic wound healing. In this work, a zinc-based nanoscale metal-organic framework (NMOF) functions as a carrier to deliver natural product berberine (BR) to form BR@Zn-BTB nanoparticles, which was, in turn, further encapsulated by hydrogel with ROS scavenging ability to yield a composite system of BR@Zn-BTB/Gel (denoted as BZ-Gel). The results show that BZ-Gel exhibited the controlled release of Zn 2+ and BR in simulated physiological media to efficiently eliminated ROS and inhibited inflammation and resulted in a promising antibacterial effect. In vivo experiments further proved that BZ-Gel significantly inhibited the inflammatory response and enhanced collagen deposition, as well as to re-epithelialize the skin wound to ultimately promote wound healing in diabetic mice. Our results indicate that the ROS-responsive hydrogel coupled with BR@Zn-BTB synergistically promotes diabetic wound healing.

Topics & Concepts

Reactive oxygen speciesWound healingChemistryNanoparticleIn vivoInflammationPharmacologyBiophysicsMaterials scienceNanotechnologyBiochemistryImmunologyMedicineBiotechnologyBiologyWound Healing and TreatmentsPressure Ulcer Prevention and ManagementDiabetic Foot Ulcer Assessment and Management
Hydrogel with ROS scavenging effect encapsulates BR@Zn-BTB nanoparticles for accelerating diabetic mice wound healing via multimodal therapy | Litcius