Bacitracin-Functionalized Dextran-MoSe 2 with Peroxidase-like and Near-Infrared Photothermal Activities for Low-Temperature and Synergetic Antibacterial Applications.
Tianran LinGaoyan JiangDanxuan LinYunping LaiLi HouShu-Lin ZhaoPublished in: ACS applied bio materials (2022)
Bacitracin (an antimicrobial peptide, AMP)-modified dextran-MoSe 2 nanosheets (AMP/dex-MoSe 2 NSs) were constructed and applied for low-temperature and synergetic antibacterial applications. The near-infrared (NIR) photothermal and peroxidase-like activities of dex-MoSe 2 were combined with the bacterial membrane-binding ability of AMP through electrostatic adsorption, and a multimode antibacterial method was realized. H 2 O 2 was converted into a hydroxyl radical (·OH) by AMP/dex-MoSe 2 , which exhibits a higher antibacterial activity and can avoid the toxicity of a high concentration of H 2 O 2 . Importantly, the production of ·OH and the antibacterial efficiency of AMP/dex-MoSe 2 were accelerated by low-temperature heat sterilization with NIR irradiation. Owing to the AMP-guided binding and destruction effect to the bacterial membrane, AMP/dex-MoSe 2 shows a better antibacterial effect on Gram-negative Escherichia coli under NIR irradiation as compared to catalytic treatment or NIR photothermal sterilization alone. Furthermore, the cytotoxicity and hemolysis of AMP/dex-MoSe 2 were weak and in a relatively safe range. This multimode antibacterial strategy based on the AMP/dex-MoSe 2 nanozyme will pave a way for the development of more safe and efficient antibacterial applications.
Keyphrases
- protein kinase
- photodynamic therapy
- silver nanoparticles
- drug release
- escherichia coli
- gram negative
- anti inflammatory
- drug delivery
- fluorescence imaging
- multidrug resistant
- cancer therapy
- wound healing
- hydrogen peroxide
- nitric oxide
- oxidative stress
- pseudomonas aeruginosa
- radiation therapy
- transcription factor
- heat stress
- radiation induced
- gold nanoparticles
- molecular dynamics simulations
- molecularly imprinted
- crystal structure
- simultaneous determination
- candida albicans