Fungal β-13-Glucan Increases Ofloxacin Tolerance of Escherichia coli in a Polymicrobial E. coli/Candida albicans Biofilm

机译：真菌β-13-葡聚糖增加了大肠杆菌/白色念珠菌生物膜中大肠杆菌的氧氟沙星耐受性

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In the past, biofilm-related research has focused mainly on axenic biofilms. However, in nature, biofilms are often composed of multiple species, and the resulting polymicrobial interactions influence industrially and clinically relevant outcomes such as performance and drug resistance. In this study, we show that Escherichia coli does not affect Candida albicans tolerance to amphotericin or caspofungin in an E. coli/C. albicans biofilm. In contrast, ofloxacin tolerance of E. coli is significantly increased in a polymicrobial E. coli/C. albicans biofilm compared to its tolerance in an axenic E. coli biofilm. The increased ofloxacin tolerance of E. coli is mainly biofilm specific, as ofloxacin tolerance of E. coli is less pronounced in polymicrobial E. coli/C. albicans planktonic cultures. Moreover, we found that ofloxacin tolerance of E. coli decreased significantly when E. coli/C. albicans biofilms were treated with matrix-degrading enzymes such as the β-1,3-glucan-degrading enzyme lyticase. In line with a role for β-1,3-glucan in mediating ofloxacin tolerance of E. coli in a biofilm, we found that ofloxacin tolerance of E. coli increased even more in E. coli/C. albicans biofilms consisting of a high-β-1,3-glucan-producing C. albicans mutant. In addition, exogenous addition of laminarin, a polysaccharide composed mainly of poly-β-1,3-glucan, to an E. coli biofilm also resulted in increased ofloxacin tolerance. All these data indicate that β-1,3-glucan from C. albicans increases ofloxacin tolerance of E. coli in an E. coli/C. albicans biofilm.

机译：过去，与生物膜有关的研究主要集中在无菌生物膜上。但是，在自然界中，生物膜通常由多种物种组成，并且所产生的微生物相互作用影响着工业和临床上相关的结果，例如性能和耐药性。在这项研究中，我们表明大肠杆菌不影响白色念珠菌对大肠杆菌/ C中两性霉素或卡泊芬净的耐受性。白色的生物膜。相反，在多微生物大肠杆菌/ C中，大肠杆菌的氧氟沙星耐受性显着提高。相比之下，白色念珠菌生物膜的耐受性是在无菌的大肠杆菌生物膜中。大肠杆菌对氧氟沙星的耐受性增加主要是生物膜特异性的，因为在多微生物大肠杆菌/ C中，大肠杆菌对氧氟沙星的耐受性不太明显。白色的浮游生物。而且，我们发现当大肠杆菌/ C时，氧氟沙星对大肠杆菌的耐受性显着降低。用基质降解酶，例如β-1,3-葡聚糖降解酶裂解酶处理白色的生物膜。与β-1,3-葡聚糖在介导生物膜中大肠杆菌对氧氟沙星的耐受性中的作用一致，我们发现大肠杆菌/氧氟沙星的耐受性在大肠杆菌/ C中甚至增加得更多。由高β-1,3-葡聚糖生产的白色念珠菌突变体组成的白色念珠生物膜。另外，将laminarin（一种主要由聚β-1,3-葡聚糖组成的多糖）外源添加到 E。大肠杆菌生物膜还导致氧氟沙星耐受性增加。所有这些数据表明来自 C的β-1,3-葡聚糖。白色念珠增加了 E的氧氟沙星耐受性。 E。中的大肠杆菌。绞痛。白色的生物膜。 展开▼

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期刊名称 Antimicrobial Agents and Chemotherapy

作者
Katrijn De Brucker; Yulong Tan; Katlijn Vints; Kaat De Cremer; Annabel Braem; Natalie Verstraeten; Jan Michiels; Jef Vleugels; Bruno P. A. Cammue; Karin Thevissen;
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作者单位

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年(卷),期 2015(59),6

年度 2015

页码 3052–3058

总页数 7

原文格式 PDF

正文语种

中图分类药学;微生物学;

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专利

1. Fungal β-1,3-Glucan Increases Ofloxacin Tolerance of Escherichia coli in a Polymicrobial E. coli/Candida albicans Biofilm [J] . De Brucker, Tan, Y.a, Antimicrobial agents and chemotherapy. . 2015,第6期

机译：真菌β-1,3-葡聚糖增加了大肠杆菌/ Candida albicans中氧化大肠杆菌耐受性耐受性的耐受性

2. Synergistic Effects of Honey and Propolis toward Drug Multi-Resistant Staphylococcus Aureus, Escherichia Coli and Candida Albicans Isolates in Single and Polymicrobial Cultures [J] . Noori AL-Waili, Ahmad Al-Ghamdi, Mohammad Javed Ansari, International Journal of Medical Sciences . 2012,第9期

机译：蜂蜜和蜂胶对药物多抗性金黄色葡萄球菌，大肠杆菌和白色念珠菌分离株的协同作用

3. Dietary sugars, serum and the biocide chlorhexidine digluconate modify the population and structural dynamics of mixed Candida albicans and Escherichia coli biofilms. [J] . Thein ZM, Smaranayake YH, Smaranayake LP APMIS: Acta Pathologica, Microbiologica et Immunologica Scandinavica . 2007,第11期

机译：饮食中的糖，血清和杀生物剂双葡萄糖酸洗必太会改变混合念珠菌和大肠杆菌生物膜的数量和结构动力学。

4. Digital Holographic Interferometric In-Vitro Imaging of Escherichia coli (E. coli) bacteria [C] . Vivek Rastogi, Rahul Gadkari, Shilpi Agarwal, Conference on Holography: Advances and Modern Trends . 2019

机译：大肠杆菌（大肠杆菌）细菌的数字全息性干涉体外成像

5. Effect of the periphytic Escherichia coli and lake water bacterial population on the biofilm establishment of a Shiga toxin producing Escherichia coli O157:H7 strain [D] . MacDonald, Tallie Anne. 2015

机译：周围生大肠杆菌和湖水细菌种群对产生志贺毒素的大肠杆菌O157：H7菌株生物膜建立的影响

6. Synergistic Effects of Honey and Propolis toward Drug Multi-Resistant Staphylococcus Aureus Escherichia Coli and Candida Albicans Isolates in Single and Polymicrobial Cultures [O] . Noori AL-Waili, Ahmad Al-Ghamdi, Mohammad Javed Ansari, 2012

机译：蜂蜜和蜂胶对药物多抗性金黄色葡萄球菌大肠埃希氏菌和白色念珠菌分离株的协同作用

7. Fungal beta-1,3-glucan increases ofloxacin tolerance of Escherichia coli in a polymicrobial E. coli/Candida albicans biofilm [O] . De Brucker Katrijn, Yu-long Tan, Vints Katlijn, 2015

机译：真菌β-1,3-葡聚糖可增加大肠杆菌/白色念珠菌生物膜中大肠杆菌对氧氟沙星的耐受性

1. 土壤中大肠杆菌热耐受性比较 [J] . 龚春明 . 海峡科学 . 2014,第006期

2. 阿奇霉素联合左氧氟沙星对大肠杆菌生物膜的干预 [J] . 邹龙涛 ,伍巧源 ,李艳林 . 广西医科大学学报 . 2015,第004期

3. 新疆南疆犊牛腹泻病中大肠杆菌生物膜形成与8种毒力基因关系分析 [J] . 杨义 ,颜秋菊 ,王琦琦 . 塔里木大学学报 . 2017,第002期

4. 厌氧真菌内切型-β-葡聚糖酶基因af1在大肠杆菌中的表达 [J] . 孟楠 ,金欣 ,夏黎明 . 科技通报 . 2014,第1期

5. 法国模拟人体消化污染原奶所制奶酪证实其中大肠杆菌O26：H11存活数量大于大肠杆菌O157：H7存活数量 [J] . . 乳业科学与技术 . 2013,第6期

6. 禽霍乱与大肠杆菌病多价蜂胶二联疫苗中大肠杆菌凝集抗体消长规律的研究 [C] . 苗立中 ,沈志强 ,刘吉山 . 中国微生物学会兽医微生物专委会学术年会中国畜牧兽医学会生物制品学分会第九次学术研讨会 . 2003

7. 亚抑菌浓度阿奇霉素联合左氧氟沙星对腹膜透析管大肠杆菌生物膜干预研究 [A] . 邹龙涛 . 2013

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2. 用于对溶液中大肠杆菌浓度检测的传感器的制作方法及其大肠杆菌浓度的检测方法 [P] . 中国专利： CN109975248A . 2019-07-05

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机译：基于基因治疗DNA载体VTVAF17的基因治疗DNA载体，携带选自基因ANG，ANGPT1，VEGFA，FGF1，HIF1α，HGF，SDF1，KLK4，PDGFC，PROK1，PROK2表达的靶基因所述的靶标基因，其生产和使用方法，应变大肠埃希氏菌SCS110-AF / VTVAF17-ANG或大肠埃希氏菌SCS110-AF / VTVAF17-ANGPT1或大肠埃希氏菌SCS110-AF / VTVAF17-VEGFA或大肠埃希氏菌SCS110-AF / VTVAF17-FGF1，或大肠埃希氏菌SCS110-AF / VTVAF17-HIF1A，或大肠埃希氏菌COLI SCS110-AF / VTVAF17-HGF，或大肠埃希氏菌SCS110-AF / VTVAF17-SDF1，或大肠埃希氏菌SCS110-AF / VTVAF17-KLK4，大肠埃希氏菌SCS110-AF / VTVAF17-PDGFC或大肠埃希氏菌SCS110-AF / VTVAF17-PROK2，携带基因-治疗性DNA载体，生产方法，工业生产方法-治疗性DNA载体

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机译：基于VTvaf17基因治疗DNA载体的基因治疗DNA载体，其携带选自ANG，ANGPT1，VEGFA，FGF1，HIF1α，HGF，SDF1，KLK4，PDGFC，PROK1，PROK2的靶基因以增加这些靶标的表达水平基因，方法的制备和使用，大肠杆菌菌株SCS110-AF / VTvaf17-ANG或大肠杆菌SCS110-AF / VTvaf17-ANGPT1或大肠杆菌SCS110-AF / VTvaf17-VEGFA或大肠杆菌SCS110-AF / VTvaf17-Fichia-SC110 AF /VTvaf17-HIF1α或大肠杆菌SCS110-AF / VTvaf17-HGF或大肠杆菌SCS110-AF / VTvaf17-SDF1或大肠杆菌SCS110-AF / VTvaf17-KLK4或大肠杆菌SCS110-AF / VTviFi10 S1携带基因治疗DNA载体的大肠杆菌SCS110-AF / VTvaf17-PROK2，其制备方法，工业生产基因治疗DNA载体的方法

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Fungal β-13-Glucan Increases Ofloxacin Tolerance of Escherichia coli in a Polymicrobial E. coli/Candida albicans Biofilm

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