Protecting bacteriophages under UV irradiation with brilliant blue FCF for targeted bacterial control

IF 5.9 Q1 MICROBIOLOGY

Biofilm Pub Date : 2025-05-09 DOI:10.1016/j.bioflm.2025.100286

Mateusz Wdowiak , Aneta Magiera , Magdalena Tomczyńska , Witold Adamkiewicz , Francesco Stellacci , Jan Paczesny

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Abstract

Compared to the standard methods for treating bacterial diseases, bacteriophages are eco-friendly and chemical-free. Exposure to ultraviolet (UV) light or sunlight hampers the efficacy of phage-based approaches. This is crucial when phages are i) exposed to sunlight (e.g., in agriculture) or ii) are to be used simultaneously with UV for sterilization. Here, we develop a method utilizing a food dye, brilliant blue FCF (BB), that selectively stabilizes bacteriophages against exposure to UV irradiation. In the absence of BB, all tested phages and bacteria are completely inactivated by UV exposure. However, with the addition of BB, all tested non-enveloped phages are effectively protected, while gram-negative bacteria remain vulnerable to UV inactivation. The mechanism of protection requires selective binding of BB to the virion. The simultaneous action of BB-stabilized bacteriophages and UV allows for the removal of up to 99.99 % of bacteria within only 30–60 min. We demonstrate the method's applicability in combating biofouling of membranes and food sterilization. We envision using the developed approach against biofouling in industrial processes, agriculture, and the food industry.

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用亮蓝色FCF保护紫外线照射下的噬菌体，用于靶向细菌控制

与治疗细菌性疾病的标准方法相比，噬菌体是环保的，不含化学物质。暴露在紫外线或阳光下会影响基于噬菌体的方法的效果。当噬菌体i)暴露在阳光下（例如，在农业中）或ii)与紫外线同时使用进行灭菌时，这一点至关重要。在这里，我们开发了一种利用食品染料，亮蓝色FCF （BB）的方法，可以选择性地稳定噬菌体，使其免受紫外线照射。在没有BB的情况下，所有被测试的噬菌体和细菌都被紫外线照射完全灭活。然而，随着BB的加入，所有被测试的非包膜噬菌体都得到了有效的保护，而革兰氏阴性菌仍然容易被紫外线灭活。这种保护机制需要BB与病毒粒子的选择性结合。bb稳定的噬菌体和紫外线的同时作用允许在30-60分钟内去除高达99.99%的细菌。我们证明了该方法在对抗膜生物污染和食品灭菌方面的适用性。我们设想在工业过程、农业和食品工业中使用开发的方法来防止生物污染。

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