Specific Chemiluminescence Imaging and Enhanced Photodynamic Therapy of Bacterial Infections by Hemin‐Modified Carbon Dots

Antibacterial photodynamic therapy (aPDT) is a promising antibiotics‐alternative strategy for bacterial infectious diseases, which features broad‐spectrum antibacterial activity with a low risk of inducing bacterial resistance. However, clinical applications of aPDT are still hindered by the hydroph...

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Veröffentlicht in:	Small (Weinheim an der Bergstrasse, Germany) Germany), 2023-08, Vol.19 (31), p.e2207868-n/a
Hauptverfasser:	Cheng, Ke, Wang, Henggang, Sun, Shan, Wu, Mingyu, Shen, Hongzhe, Chen, Ke, Zhang, Zhiyuan, Li, Si, Lin, Hengwei
Format:	Artikel
Sprache:	eng
Schlagworte:	Anti-Bacterial Agents - pharmacology Anti-Bacterial Agents - therapeutic use antibacterial photodynamic therapy Bacteria Bacterial infections Bacterial Infections - drug therapy Carbon Carbon dots Chemiluminescence chemiluminescence imaging Hemin Humans Hydrophobicity Hypoxia Imaging Infections Infectious diseases Luminescence Nanotechnology Peroxidase Photochemotherapy - methods Photodynamic therapy Photosensitizing Agents - pharmacology Photosensitizing Agents - therapeutic use Strategy
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creator	Cheng, Ke Wang, Henggang Sun, Shan Wu, Mingyu Shen, Hongzhe Chen, Ke Zhang, Zhiyuan Li, Si Lin, Hengwei
description	Antibacterial photodynamic therapy (aPDT) is a promising antibiotics‐alternative strategy for bacterial infectious diseases, which features broad‐spectrum antibacterial activity with a low risk of inducing bacterial resistance. However, clinical applications of aPDT are still hindered by the hydrophobicity‐caused inadequate photodynamic activity of conventional photosensitizers and the hypoxic microenvironment of bacterial infections. To address these problems, herein, a promising strategy is developed to achieve specific chemiluminescence (CL) imaging and enhanced PDT of bacterial infections using hemin‐modified carbon dots (H‐CDs). The H‐CDs can be facilely prepared and exhibit favorable water solubility, augmented photodynamic activity, and unique peroxidase‐mimicking capacity. Compared with the free CDs, the photodynamic efficacy of H‐CDs is significantly augmented due to the increased electron–hole separation efficiency. Moreover, the peroxidase catalytic performance of H‐CDs enables not only infection identification via bacterial infection microenvironment‐responsive CL imaging but also oxygen self‐supplied aPDT with hypoxia‐relief‐enhanced bacteria inactivation effects. Finally, the enhanced aPDT efficiencies of H‐CDs are validated in both in vivo abscess and infected wound models. This work may provide an effective antibacterial platform for the selective imaging‐guided treatment of bacterial infections. A promising strategy is developed for specific chemiluminescence (CL) imaging and enhanced photodynamic therapy (PDT) of bacterial infections through coupling hemin and carbon dots. The as‐fabricated system enables not only infection identification via bacterial infection microenvironment‐responsive CL imaging but also oxygen‐self‐supplied antibacterial PDT with enhanced efficiency that is being validated in both in vivo abscess and infected wound models.
doi_str_mv	10.1002/smll.202207868
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However, clinical applications of aPDT are still hindered by the hydrophobicity‐caused inadequate photodynamic activity of conventional photosensitizers and the hypoxic microenvironment of bacterial infections. To address these problems, herein, a promising strategy is developed to achieve specific chemiluminescence (CL) imaging and enhanced PDT of bacterial infections using hemin‐modified carbon dots (H‐CDs). The H‐CDs can be facilely prepared and exhibit favorable water solubility, augmented photodynamic activity, and unique peroxidase‐mimicking capacity. Compared with the free CDs, the photodynamic efficacy of H‐CDs is significantly augmented due to the increased electron–hole separation efficiency. Moreover, the peroxidase catalytic performance of H‐CDs enables not only infection identification via bacterial infection microenvironment‐responsive CL imaging but also oxygen self‐supplied aPDT with hypoxia‐relief‐enhanced bacteria inactivation effects. Finally, the enhanced aPDT efficiencies of H‐CDs are validated in both in vivo abscess and infected wound models. This work may provide an effective antibacterial platform for the selective imaging‐guided treatment of bacterial infections. A promising strategy is developed for specific chemiluminescence (CL) imaging and enhanced photodynamic therapy (PDT) of bacterial infections through coupling hemin and carbon dots. 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However, clinical applications of aPDT are still hindered by the hydrophobicity‐caused inadequate photodynamic activity of conventional photosensitizers and the hypoxic microenvironment of bacterial infections. To address these problems, herein, a promising strategy is developed to achieve specific chemiluminescence (CL) imaging and enhanced PDT of bacterial infections using hemin‐modified carbon dots (H‐CDs). The H‐CDs can be facilely prepared and exhibit favorable water solubility, augmented photodynamic activity, and unique peroxidase‐mimicking capacity. Compared with the free CDs, the photodynamic efficacy of H‐CDs is significantly augmented due to the increased electron–hole separation efficiency. Moreover, the peroxidase catalytic performance of H‐CDs enables not only infection identification via bacterial infection microenvironment‐responsive CL imaging but also oxygen self‐supplied aPDT with hypoxia‐relief‐enhanced bacteria inactivation effects. Finally, the enhanced aPDT efficiencies of H‐CDs are validated in both in vivo abscess and infected wound models. This work may provide an effective antibacterial platform for the selective imaging‐guided treatment of bacterial infections. A promising strategy is developed for specific chemiluminescence (CL) imaging and enhanced photodynamic therapy (PDT) of bacterial infections through coupling hemin and carbon dots. The as‐fabricated system enables not only infection identification via bacterial infection microenvironment‐responsive CL imaging but also oxygen‐self‐supplied antibacterial PDT with enhanced efficiency that is being validated in both in vivo abscess and infected wound models.</abstract><cop>Germany</cop><pub>Wiley Subscription Services, Inc</pub><pmid>36965080</pmid><doi>10.1002/smll.202207868</doi><tpages>14</tpages><orcidid>https://orcid.org/0000-0002-0589-7035</orcidid></addata></record>
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subjects	Anti-Bacterial Agents - pharmacology Anti-Bacterial Agents - therapeutic use antibacterial photodynamic therapy Bacteria Bacterial infections Bacterial Infections - drug therapy Carbon Carbon dots Chemiluminescence chemiluminescence imaging Hemin Humans Hydrophobicity Hypoxia Imaging Infections Infectious diseases Luminescence Nanotechnology Peroxidase Photochemotherapy - methods Photodynamic therapy Photosensitizing Agents - pharmacology Photosensitizing Agents - therapeutic use Strategy
title	Specific Chemiluminescence Imaging and Enhanced Photodynamic Therapy of Bacterial Infections by Hemin‐Modified Carbon Dots
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