碳量子点通过破坏生物膜相关基因表现出特定的抗生物膜活性。

Specific Anti-biofilm Activity of Carbon Quantum Dots by Destroying . Biofilm Related Genes.

机构信息

Medical College, Henan University of Science and Technology, Luoyang 471023, People's Republic of China.

Henan Key Laboratory of Cancer Epigenetics, The First Affiliated Hospital of Henan University of Science and Technology, Luoyang 471023, People's Republic of China.

出版信息

Int J Nanomedicine. 2020 Jul 31;15:5473-5489. doi: 10.2147/IJN.S253416. eCollection 2020.

DOI:10.2147/IJN.S253416

PMID:32801701

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7406331/

Abstract

INTRODUCTION

Biofilms protect bacteria from antibiotics and this can produce drug-resistant strains, especially the main pathogen of periodontitis, . Carbon quantum dots with various biomedical properties are considered to have great application potential in antibacterial and anti-biofilm treatment.

METHODS

Tinidazole carbon quantum dots (TCDs) and metronidazole carbon quantum dots (MCDs) were prepared by a hydrothermal method with the clinical antibacterial drugs tinidazole and metronidazole, respectively. Then, TCDs and MCDs were characterized by transmission electron microscopy, UV-visible spectroscopy, infrared spectroscopy and energy-dispersive spectrometry. The antibacterial effects were also investigated under different conditions.

RESULTS

The TCDs and MCDs had uniform sizes. The results of UV-visible and energy-dispersive spectrometry confirmed their important carbon polymerization structures and the activity of the nitro group, which had an evident inhibitory effect on , but almost no effect on other bacteria, including , and . Importantly, the TCDs could penetrate the biofilms to further effectively inhibit the growth of under the biofilms. Furthermore, it was found that the antibacterial effect of TCDs lies in its ability to impair toxicity by inhibiting the major virulence factors and related genes involved in the biofilm formation of , thus affecting the self-assembly of biofilm-related proteins.

CONCLUSION

The findings demonstrate a promising new method for improving the efficiency of periodontitis treatment by penetrating the biofilm with preparations of nano-level antibacterial drugs.

摘要

简介

生物膜使细菌免受抗生素的侵害，从而产生耐药菌株，特别是牙周炎的主要病原体。具有各种生物医学特性的碳量子点被认为在抗菌和抗生物膜治疗方面具有巨大的应用潜力。

方法

采用水热法，以临床抗菌药物替硝唑和甲硝唑分别制备替硝唑碳量子点（TCDs）和甲硝唑碳量子点（MCDs）。然后，通过透射电子显微镜、紫外-可见分光光度计、红外光谱和能谱对 TCDs 和 MCDs 进行了表征。还在不同条件下研究了它们的抗菌作用。

结果

TCDs 和 MCDs 具有均匀的尺寸。紫外-可见和能谱分析的结果证实了它们重要的碳聚合结构和硝基基团的活性，对有明显的抑制作用，但对其他细菌几乎没有作用，包括、和。重要的是，TCDs 可以穿透生物膜，进一步有效地抑制生物膜下的生长。此外，研究发现 TCDs 的抗菌作用在于其通过抑制与生物膜形成相关的主要毒力因子和相关基因来损害毒性的能力，从而影响生物膜相关蛋白的自组装。

结论

这些发现表明，通过用纳米级抗菌药物制剂穿透生物膜，为提高牙周炎治疗效率提供了一种有前途的新方法。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b4cd/7406331/845edb3c45d5/IJN-15-5473-g0001.jpg

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碳量子点通过破坏生物膜相关基因表现出特定的抗生物膜活性。

Specific Anti-biofilm Activity of Carbon Quantum Dots by Destroying . Biofilm Related Genes.

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

CONCLUSION

简介

方法

结果

结论

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