School of Chemical Engineering, West China Hospital of Stomatology, Sichuan University, Chengdu, 610065, China.
Department of Cariology and Endodontics, Department of Orthodontics, State Key Laboratory of Oral Diseases and National Clinical Research Center for Oral Diseases, Sichuan University, Chengdu, 610065, China.
Adv Mater. 2024 Nov;36(48):e2414111. doi: 10.1002/adma.202414111. Epub 2024 Oct 13.
Phototherapy, such as photothermal therapy (PTT) and photodynamic therapy (PDT) has been a powerful strategy to combat bacterial infection. However, the compact cell membranes of pathogenic bacteria, especially drug-resistant bacteria, significantly diminish the efficiency of heat conduction and impede the entrance of reactive oxygen species (ROS) into cells, resulting in unsatisfactory sterilization. Enlightened by the membrane feature of competent bacteria, herein a MXene/CaO bio-heterojunction (MC bio-HJ) is elaborated to achieve rapid disinfection and promote infected tissue regeneration through activating competent cell-like antibacterial tactics. The bio-HJ first compels pathogenic bacteria to become a competent cell-like stage through the coordination of Ca and membrane phospholipid, and potentiates the membrane permeability. Assisted by near infrared (NIR) irradiation, the heat and ROS generated from PTT and PDT of bio-HJ easily pass through bacterial membrane and drastically perturb bacterial metabolism, leading to rapid disinfection. More importantly, employing two in vivo infected model of mice, it have corroborated that the MC bio-HJs not only effectively accelerate MRSA-infected cutaneous regeneration, but also considerably boost osseointegration in an infected bone defect after coating on orthopedic implants. As envisaged, this work demonstrates a novel therapeutic tactic with robust antibacterial effect to remedy infected tissue regeneration through activating competent cell-like stage.
光疗,如光热疗法(PTT)和光动力疗法(PDT),是一种对抗细菌感染的有效策略。然而,致病细菌,特别是耐药细菌的紧凑细胞膜,极大地降低了热传导的效率,并阻碍了活性氧(ROS)进入细胞,导致杀菌效果不理想。受感受态细菌的膜特性启发,本文设计了一种 MXene/CaO 生物异质结(MC 生物 HJ),通过激活感受态细胞样抗菌策略,实现快速杀菌和促进感染组织再生。生物 HJ 首先通过 Ca 和膜磷脂的协调作用迫使致病菌进入感受态细胞样阶段,增强细胞膜通透性。在近红外(NIR)照射的辅助下,生物 HJ 的 PTT 和 PDT 产生的热和 ROS 很容易穿透细菌膜,剧烈扰乱细菌代谢,导致快速杀菌。更重要的是,通过两种小鼠体内感染模型的验证,MC 生物 HJ 不仅能有效促进 MRSA 感染皮肤的再生,而且能在骨科植入物表面涂层后显著促进感染性骨缺损中的骨整合。可以预见,这项工作展示了一种通过激活感受态细胞样阶段来治疗感染组织再生的新型治疗策略,具有强大的抗菌效果。
