牛乳中的新型长双歧杆菌亚种 T1 菌株:对产 ESBL 大肠杆菌的同源性和抗菌活性

IF 4.3 2区 医学 Q1 INFECTIOUS DISEASES Antibiotics-Basel Pub Date : 2024-09-27 DOI:10.3390/antibiotics13100924
Andrey V Machulin, Vyacheslav M Abramov, Igor V Kosarev, Evgenia I Deryusheva, Tatiana V Priputnevich, Alexander N Panin, Ashot M Manoyan, Irina O Chikileva, Tatiana N Abashina, Dmitriy A Blumenkrants, Olga E Ivanova, Tigran T Papazyan, Ilia N Nikonov, Nataliya E Suzina, Vyacheslav G Melnikov, Valentin S Khlebnikov, Vadim K Sakulin, Vladimir A Samoilenko, Alexey B Gordeev, Gennady T Sukhikh, Vladimir N Uversky, Andrey V Karlyshev
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引用次数: 0

摘要

背景/目的:全球范围内出现了对抗生素产生耐药性的动物源性大肠埃希氏菌株,这些菌株可产生广谱β-内酰胺酶(ESBL-E)并在农场动物肠道中持续存在,现已导致人类肠道外传染病的大流行。寻找能消除人类和动物肠道中 ESBL-E 的创新益生微生物具有现实意义。此前,我们从一头产犊牛的牛奶(BLLT1)、一头新生小牛的粪便(BLLT2)和一名从这头产犊牛那里获得鲜牛奶的三岁儿童的粪便(BLLT3)中获得了三种双歧杆菌分离物。我们的目标是利用基因组 DNA 指纹图谱(GDF)评估 BLLT1、BLLT2 和 BLLT3 分离物的遗传特性,研究 BLLT1 对 ESBL-E 的耐受性、粘附性、同源性和抗菌活性。方法:我们使用了包括新一代测序(NGS)在内的微生物学、分子生物学和免疫学综合方法。结果:GDF 显示,BLLT2 和 BLLT3 分离物的 DNA 片段在数量和大小上与 BLLT1 的 DNA 片段相同。这些数据首次表明,BLLT1 有可能通过犊牛的乳汁自然水平传播到犊牛的肠道和儿童的肠道。BLLT1 对胃肠道应激具有抵抗力,对小牛、猪、鸡和人的肠细胞具有很高的粘附活性。这表明 BLLT1 具有在动物和人类肠道中栖息的独特能力。我们首次发现 BLLT1 对人类和动物体内持续存在的 ESBL-E 菌株具有抗菌活性。BLLT1 产生 145 ± 8 mM 的乙酸,将营养培养基的 pH 值从 6.8 降至 5.2。这对 ESBL-E 有抗菌作用。BLLT1 的基因组含有 ABC 型碳水化合物转运体基因簇,负责合成乙酸,并对 ESBL-E 具有抗菌活性。BLLT1 可抑制 ESBL-E 在 HT-29 肠细胞中诱导的 TLR4 mRNA 表达,并保护本研究中用作肠屏障生物模型的肠细胞单层。BLLT1能增加肠道碱性磷酸酶(IAP),而IAP是维持肠道平衡的主要分子因子之一。结论BLLT1 有望创造出创新的人类功能性营养产品和农场动物饲料添加剂,从而减少 ESBL-E 菌株在食物链中的传播。
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A Novel Bifidobacterium longum Subsp. longum T1 Strain from Cow's Milk: Homeostatic and Antibacterial Activity against ESBL-Producing Escherichia coli.

Background/Objectives: The global emergence of antibiotic-resistant zooanthroponotic Escherichia coli strains, producing extended-spectrum beta-lactamases (ESBL-E) and persisting in the intestines of farm animals, has now led to the development of a pandemic of extra-intestinal infectious diseases in humans. The search for innovative probiotic microorganisms that eliminate ESBL-E from the intestines of humans and animals is relevant. Previously, we received three isolates of bifidobacteria: from milk of a calved cow (BLLT1), feces of a newborn calf (BLLT2) and feces of a three-year-old child who received fresh milk from this calved cow (BLLT3). Our goal was to evaluate the genetic identity of BLLT1, BLLT2, BLLT3 isolates using genomic DNA fingerprinting (GDF), to study the tolerance, adhesion, homeostatic and antibacterial activity of BLLT1 against ESBL-E. Methods: We used a complex of microbiological, molecular biological, and immunological methods, including next generation sequencing (NGS). Results: GDF showed that DNA fragments of BLLT2 and BLLT3 isolates were identical in number and size to DNA fragments of BLLT1. These data show for the first time the possibility of natural horizontal transmission of BLLT1 through with the milk of a calved cow into the intestines of a calf and the intestines of a child. BLLT1 was resistant to gastric and intestinal stresses and exhibited high adhesive activity to calf, pig, chicken, and human enterocytes. This indicates the unique ability of BLLT1 to inhabit the intestines of animals and humans. We are the first to show that BLLT1 has antibacterial activity against ESBL-E strains that persist in humans and animals. BLLT1 produced 145 ± 8 mM of acetic acid, which reduced the pH of the nutrient medium from 6.8 to 5.2. This had an antibacterial effect on ESBL-E. The genome of BLLT1 contains ABC-type carbohydrate transporter gene clusters responsible for the synthesis of acetic acid with its antibacterial activity against ESBL-E. BLLT1 inhibited TLR4 mRNA expression induced by ESBL-E in HT-29 enterocytes, and protected the enterocyte monolayers used in this study as a bio-model of the intestinal barrier. BLLT1 increased intestinal alkaline phosphatase (IAP) as one of the main molecular factors providing intestinal homeostasis. Conclusions: BLLT1 shows promise for the creation of innovative functional nutritional products for humans and feed additives for farm animals that will reduce the spread of ESBL-E strains in the food chain.

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来源期刊
Antibiotics-Basel
Antibiotics-Basel Pharmacology, Toxicology and Pharmaceutics-General Pharmacology, Toxicology and Pharmaceutics
CiteScore
7.30
自引率
14.60%
发文量
1547
审稿时长
11 weeks
期刊介绍: Antibiotics (ISSN 2079-6382) is an open access, peer reviewed journal on all aspects of antibiotics. Antibiotics is a multi-disciplinary journal encompassing the general fields of biochemistry, chemistry, genetics, microbiology and pharmacology. Our aim is to encourage scientists to publish their experimental and theoretical results in as much detail as possible. Therefore, there is no restriction on the length of papers.
期刊最新文献
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