动态模型评价柠檬烯对三种不同材料的混合生物膜形成及治疗作用。

Evaluation of the Pathogenic-Mixed Biofilm Formation of / and Treatment with Limonene on Three Different Materials by a Dynamic Model.

机构信息

Department of Biology, University of Naples "Federico II", 80126 Naples, Italy.

Department of Sciences and Technologies, University of Naples "Parthenope", 80143 Naples, Italy.

出版信息

Int J Environ Res Public Health. 2022 Mar 21;19(6):3741. doi: 10.3390/ijerph19063741.

DOI:10.3390/ijerph19063741

PMID:35329426

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8955688/

Abstract

BACKGROUND

Biofilms have been found growing on implantable medical devices. This can lead to persistent clinical infections. The highly antibiotic-resistant property of biofilms necessitates the search for both potent antimicrobial agents and novel antibiofilm strategies. Natural product-based anti-biofilm agents were found to be as efficient as chemically synthesized counterparts with fewer side effects. In the present study, the effects of limonene as an antibiofilm agent were evaluated on and biofilm formed on different surfaces using the CDC model system in continuous flow. The gene and the gene expression in and the gene and gene in which could be considered as efficient resistance markers, were studied.

METHODS

Mono- and dual-species biofilms were grown on polycarbonate, polypropylene, and stainless-steel coupons in a CDC biofilm reactor (Biosurface Technologies, Bozeman, MT, USA). To evaluate the ability of limonene to inhibit and eradicate biofilm, a sub-MIC concentration (10 mL/L) was tested. The gene expression of and was detected by SYBR Green quantitative Real-Time PCR assay (Meridiana Bioline, Brisbane, Australia).

RESULTS

The limonene added during the formation of biofilms at sub-MIC concentrations works very well in inhibiting biofilms on all three materials, reducing their growth by about 2 logs. Of the same order of magnitude is the ability of limonene to eradicate both mono- and polymicrobial mature biofilms on all three materials. Greater efficacy was observed in the polymicrobial biofilm on steel coupons. The expression of some genes related to the virulence of the two microorganisms was differently detected in mono- and polymicrobial biofilm.

CONCLUSIONS

These data showed that the limonene treatment expressed different levels of biofilm-forming genes, especially when both types of strains alone and together grew on different surfaces. Our findings showed that limonene treatment is also very efficient when biofilm has been grown under shear stress causing significant and irreversible damage to the biofilm structure. The effectiveness of the sanitation procedures can be optimized by applying antimicrobial combinations with natural compounds (e.g., limonene).

摘要

背景

已发现生物膜在可植入医疗器械上生长。这可能导致持续的临床感染。生物膜具有高度的抗生素耐药性，因此需要寻找强效的抗菌剂和新型抗生物膜策略。基于天然产物的抗生物膜剂被发现与化学合成的对应物一样有效，且副作用更少。在本研究中，我们评估了柠檬烯作为一种抗生物膜剂，通过连续流 CDC 模型系统在不同表面上对和生物膜形成的影响。研究了和中的基因和基因表达，以及中的基因和基因，它们可以被视为有效的耐药标记物。

方法

在 CDC 生物膜反应器（美国蒙大拿州 Bozeman 的 Biosurface Technologies）中，在聚碳酸酯、聚丙烯和不锈钢片上培养单种和双种生物膜。为了评估柠檬烯抑制和消除生物膜的能力，测试了亚 MIC 浓度（10 mL/L）。通过 SYBR Green 定量实时 PCR 检测基因和基因的表达（澳大利亚布里斯班的 Meridiana Bioline）。

结果

柠檬烯在亚 MIC 浓度下添加到生物膜形成过程中，在所有三种材料上都能很好地抑制生物膜的生长，使其生长减少约 2 个对数级。柠檬烯在所有三种材料上消除单种和多种微生物成熟生物膜的能力也在同一数量级。在钢片上的多菌种生物膜中观察到更高的功效。在单种和多种微生物生物膜中，检测到与两种微生物毒力相关的一些基因的表达不同。

结论

这些数据表明，柠檬烯处理表达了不同水平的生物膜形成基因，特别是当两种类型的菌株单独和一起在不同表面上生长时。我们的研究结果表明，柠檬烯处理在生物膜受到剪切应力生长时也非常有效，这会对生物膜结构造成严重且不可逆的破坏。通过应用具有天然化合物（例如柠檬烯）的抗菌组合，可以优化卫生程序的有效性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8be7/8955688/3cbbe14d6c18/ijerph-19-03741-sch001.jpg

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动态模型评价柠檬烯对三种不同材料的混合生物膜形成及治疗作用。

Evaluation of the Pathogenic-Mixed Biofilm Formation of / and Treatment with Limonene on Three Different Materials by a Dynamic Model.

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出版信息

BACKGROUND

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CONCLUSIONS

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