4.8 Article

Deciphering the therapeutic mechanism of topical WS2 nanosheets for the effective therapy of burn injuries

期刊

APPLIED MATERIALS TODAY
卷 29, 期 -, 页码 -

出版社

ELSEVIER
DOI: 10.1016/j.apmt.2022.101591

关键词

Anti -inflammation; Anti-apoptosis; Burn wound healing; Oxidative stress suppression; WS2 nanosheet antipyrotic

资金

  1. Basic Science Research Program [NRF- 2021R1A2C2003837]
  2. Basic Research Laboratory Program [2021R1A4A5032463]
  3. National R D Program [2021M3C1C3097211]
  4. National Research Foundation of Korea (NRF) - Ministry of Science
  5. ICT
  6. Korea Health Technology R & D Project through the Korea Health Industry Devel- opment Institute (KHIDI) [HP20C0006]
  7. Ministry of Health & Welfare, Republic of Korea

向作者/读者索取更多资源

This study developed antioxidative and anti-inflammatory 2H-WS2 nanosheets as a biocompatible topical antipyrotic for deep burn wounds. The nanosheets effectively suppressed oxidative stress, inflammation, and apoptosis in human keratinocytes, while enhancing the intrinsic defense systems of skin cells. In animal experiments, the nanosheets showed higher efficacy in wound healing compared to commercial silver sulfadiazine. The therapeutic mechanism of the nanosheets was found to be distinct from that of silver sulfadiazine and showed potential for the treatment of other oxidative stress-induced and inflammatory diseases.
Deep burn injuries are complicated traumas accompanying severe oxidative stress and impairment of inherent cellular defense mechanisms against external bacteria. Accordingly, it is required to suppress oxidative stress and support the recovery of intrinsic defense systems in burn wound lesions, but limited topical treatments are clinically available. Herein, antioxidative and anti-inflammatory 2H-WS2 nanosheets are developed as a biocompatible, topical antipyrotic for the treatment of deep burn wounds. The 2H-WS2 nanosheets functional-ized with a block copolymer can effectively suppress extrinsic apoptosis, lipid peroxidation, and inflammation in human keratinocytes by scavenging intracellular reactive oxygen species (ROS) and reactive nitrogen species (RNS). Moreover, the 2H-WS2 nanosheets markedly stimulate the up-regulation of innate antioxidant enzymes and antimicrobial peptides in the skin cells, enhancing their intrinsic cellular defense systems. The combined effects of this 2H-WS2 antipyrotic enables a higher efficacy in the deep burn wounds of mice, accelerating re-epithelialization and satisfactory wound healing as compared with commercial silver sulfadiazine (SSD). The therapeutic mechanism of the 2H-WS2 nanosheets for deep burn wounds is proposed herein and found to be distinctly different from that of SSD. The nanotherapeutics of multifunctional 2H-WS2 nanosheets show potential for use in the treatment of other oxidative stress-induced and inflammatory diseases.

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