Biomimetic Bacteriophage‐Like Particles Formed from Probiotic Extracts and NO Donors for Eradicating Multidrug‐Resistant Staphylococcus aureus

金黄色葡萄球菌 微生物学 化学 溶解 细菌 干酪乳杆菌 多重耐药 光热治疗 抗菌活性 细菌细胞结构 抗生素 生物物理学 材料科学 纳米技术 生物 生物化学 遗传学
作者
Caixin Gong,Guan Wei,Xiangmei Liu,Yufeng Zheng,Zhaoyang Li,Yu Zhang,Shengli Zhu,Hui Jiang,Zhenduo Cui,Shuilin Wu
出处
期刊:Advanced Materials [Wiley]
卷期号:34 (45): e2206134-e2206134 被引量:76
标识
DOI:10.1002/adma.202206134
摘要

Effectively clearing multidrug-resistant bacteria through nonantibiotic treatments is crucial for the recovery of infected tissues in favorable biological environments. Herein, a thermally responsive donor of cell-messenger nitric oxide (NO) is combined with extracts of food-grade Lactobacillus casei to form biomimetic phage-like microparticles with a tailspike structure. These particles can invade bacterial membranes and release NO to disrupt nitrogen and respiratory metabolisms, which initiates the programmed death of multidrug-resistant Staphylococcus aureus (MRSA) for inducing lysis, like the bacterial virus. Experiments suggest that these microparticles can also weaken bacterial toxicity and provide favorable conditions for cell proliferation because of the continuously released NO. By encapsulating these microparticles into graphene-oxide-doped polymers, a dual-mode antibacterial hydrogel (DMAH) can be constructed. In vivo results reveal that the DMAH achieves a long-time sterilization of MRSA with 99.84 ± 0.13% antibacterial rate in the dark because of the phage-like performance of the biomimetic microparticles. In its other antibacterial mode, DMAH subjected to 20 min of near-infrared irradiation release NO, which, together with the photothermal effect, synergistically damages bacterial cell membranes to achieve very fast disinfection (97.13 ± 0.41% bactericidal rate). This multifunctional hydrogel can also significantly accelerate wound healing due to the phage-like particles.
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