用于抗菌应用的聚氧化金属盐及其复合材料:进展、机制和未来展望

IF 3.8 2区 化学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY
Min Ma , Jiayin Chen , Liuyang Dong , Yue Su , Shufang Tian , Yuemin Zhou , Mingxue Li
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引用次数: 0

摘要

抗生素的过度使用会导致抗生素耐药菌的产生,从而更加难以治疗,并对公众健康构成更大的威胁。为了解决抗生素耐药菌问题,研究人员目前正在探索既有效又可持续的替代灭菌方法。聚氧化金属盐(POMs)作为新兴的过渡金属氧化物化合物,因其显著的可调物理和化学性能,在各种应用领域,尤其是抗菌领域,展现出巨大的潜力。它们构成了一个多样化的无机团簇家族,具有多种不同的组成、结构和电荷。目前,多项研究表明,基于聚甲醛的复合材料在抗菌领域受到广泛关注,并有可能成为未来医疗应用的理想材料。此外,本综述将重点探讨不同种类的有机-无机杂化 POM、POM 基复合材料、薄膜和水凝胶的抗菌性能和机理,这些材料具有很强的生物活性,而 POM 基复合材料具有 POM 和其他材料的双重优势。此外,还讨论了潜在的抗菌机制,主要包括细胞壁/膜破坏、细胞内物质泄漏、细胞内活性氧(ROS)水平升高和谷胱甘肽(GSH)耗竭。这些发现为 POM 作为抗菌领域的典范材料开辟了令人兴奋的可能性,并扩大了其应用前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Polyoxometalates and their composites for antimicrobial applications: Advances, mechanisms and future prospects

Polyoxometalates and their composites for antimicrobial applications: Advances, mechanisms and future prospects

The overuse of antibiotics can lead to the development of antibiotic-resistant bacteria, which can be even more difficult to treat and pose an even greater threat to public health. In order to address the issue of antibiotic-resistant bacteria, researchers currently are exploring alternative methods of sterilization that are both effective and sustainable. Polyoxometalates (POMs), as emerging transition metal oxide compounds, exhibit significant potential in various applications due to their remarkable tunable physical and chemical performance, especially in antibacterial fields. They constitute a diverse family of inorganic clusters, characterized by a wide array of composition, structures and charges. Presently, several studies indicated that POM-based composites have garnered extensive attention in the realms of the antibacterial field and may become promising materials for future medical applications. Moreover, this review will focus on exploring the antibacterial properties and mechanisms of different kinds of organic-inorganic hybrid POMs, POM-based composites, films and hydrogels with substantial bioactivity, while POM-based composites have the dual advantages of POMs and other materials. Additionally, the potential antimicrobial mechanisms have also been discussed, mainly encompassing cell wall/membrane disruption, intracellular material leakage, heightened intracellular reactive oxygen species (ROS) levels, and depletion of glutathione (GSH). These findings open up exciting possibilities for POMs as exemplary materials in the antibacterial arena and expand their prospective applications.

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来源期刊
Journal of Inorganic Biochemistry
Journal of Inorganic Biochemistry 生物-生化与分子生物学
CiteScore
7.00
自引率
10.30%
发文量
336
审稿时长
41 days
期刊介绍: The Journal of Inorganic Biochemistry is an established international forum for research in all aspects of Biological Inorganic Chemistry. Original papers of a high scientific level are published in the form of Articles (full length papers), Short Communications, Focused Reviews and Bioinorganic Methods. Topics include: the chemistry, structure and function of metalloenzymes; the interaction of inorganic ions and molecules with proteins and nucleic acids; the synthesis and properties of coordination complexes of biological interest including both structural and functional model systems; the function of metal- containing systems in the regulation of gene expression; the role of metals in medicine; the application of spectroscopic methods to determine the structure of metallobiomolecules; the preparation and characterization of metal-based biomaterials; and related systems. The emphasis of the Journal is on the structure and mechanism of action of metallobiomolecules.
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