{"title":"根据耐碳青霉烯类大肠杆菌的耐药机制,源自肠道微生物群的丁酸盐可选择性地干扰耐碳青霉烯类大肠杆菌的生长。","authors":"Eva Happ,Kora Schulze,Zinia Afrin,Sabrina Woltemate,Pia Görner,Stefan Ziesing,Dirk Schlüter,Robert Geffers,Volker Winstel,Marius Vital","doi":"10.1080/19490976.2024.2397058","DOIUrl":null,"url":null,"abstract":"We investigated consequences of resistance acquisition in Escherichia coli clinical isolates during anaerobic (continuous culture) growth and examined their sensitivity to butyrate, a hallmark metabolite of healthy gut microbiota. Strains were stratified based on carrying either a carbapenemase (CARB) or displaying porin malfunctioning (POR). POR displayed markedly altered growth efficiencies, lower membrane stability and increased sensitivity to butyrate compared with CARB. Major differences in global gene expression between the two groups during anaerobic growth were revealed involving increased expression of alternative substrate influx routes, the stringent response and iron acquisition together with lower expression of various stress response systems in POR. Longitudinal analyses during butyrate wash-in showed common responses for all strains as well as specific features of POR that displayed strong initial \"overshoot\" reactions affecting various stress responses that balanced out over time. Results were partly reproduced in a mutant strain verifying porin deficiencies as the major underlying mechanism for results observed in clinical isolates. Furthermore, direct competition experiments confirmed butyrate as key for amplifying fitness disadvantages based on porin malfunctioning. Results provide new (molecular) insights into ecological consequences of resistance acquisition and can assist in developing measures to prevent colonization and infection based on the underlying resistance mechanism.","PeriodicalId":12909,"journal":{"name":"Gut Microbes","volume":"13 1","pages":"2397058"},"PeriodicalIF":12.2000,"publicationDate":"2024-09-18","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Gut microbiota-derived butyrate selectively interferes with growth of carbapenem-resistant Escherichia coli based on their resistance mechanism.\",\"authors\":\"Eva Happ,Kora Schulze,Zinia Afrin,Sabrina Woltemate,Pia Görner,Stefan Ziesing,Dirk Schlüter,Robert Geffers,Volker Winstel,Marius Vital\",\"doi\":\"10.1080/19490976.2024.2397058\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"We investigated consequences of resistance acquisition in Escherichia coli clinical isolates during anaerobic (continuous culture) growth and examined their sensitivity to butyrate, a hallmark metabolite of healthy gut microbiota. Strains were stratified based on carrying either a carbapenemase (CARB) or displaying porin malfunctioning (POR). POR displayed markedly altered growth efficiencies, lower membrane stability and increased sensitivity to butyrate compared with CARB. Major differences in global gene expression between the two groups during anaerobic growth were revealed involving increased expression of alternative substrate influx routes, the stringent response and iron acquisition together with lower expression of various stress response systems in POR. Longitudinal analyses during butyrate wash-in showed common responses for all strains as well as specific features of POR that displayed strong initial \\\"overshoot\\\" reactions affecting various stress responses that balanced out over time. Results were partly reproduced in a mutant strain verifying porin deficiencies as the major underlying mechanism for results observed in clinical isolates. 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引用次数: 0
摘要
我们研究了大肠埃希菌临床分离株在厌氧(连续培养)生长过程中获得耐药性的后果,并考察了它们对健康肠道微生物群的标志性代谢产物丁酸盐的敏感性。根据菌株是否携带碳青霉烯酶(CARB)或是否显示孔蛋白功能失常(POR)对其进行了分层。与 CARB 菌株相比,POR 菌株的生长效率明显改变,膜稳定性降低,对丁酸盐的敏感性增加。在厌氧生长过程中,两组之间的整体基因表达存在重大差异,其中 POR 的替代底物流入途径、严格反应和铁获取的表达增加,而各种应激反应系统的表达较低。在丁酸盐冲洗过程中进行的纵向分析表明,所有菌株都有共同的反应,而 POR 则有一些特殊的特征,表现出强烈的初始 "过冲 "反应,影响了各种应激反应,但随着时间的推移逐渐趋于平衡。结果在一个突变菌株中得到了部分重现,验证了孔蛋白缺陷是临床分离物中观察到的结果的主要基本机制。此外,直接竞争实验证实,丁酸盐是扩大基于孔蛋白功能失常的适应性劣势的关键。研究结果为获得抗药性的生态后果提供了新的(分子)见解,有助于根据潜在的抗药性机制制定预防定植和感染的措施。
Gut microbiota-derived butyrate selectively interferes with growth of carbapenem-resistant Escherichia coli based on their resistance mechanism.
We investigated consequences of resistance acquisition in Escherichia coli clinical isolates during anaerobic (continuous culture) growth and examined their sensitivity to butyrate, a hallmark metabolite of healthy gut microbiota. Strains were stratified based on carrying either a carbapenemase (CARB) or displaying porin malfunctioning (POR). POR displayed markedly altered growth efficiencies, lower membrane stability and increased sensitivity to butyrate compared with CARB. Major differences in global gene expression between the two groups during anaerobic growth were revealed involving increased expression of alternative substrate influx routes, the stringent response and iron acquisition together with lower expression of various stress response systems in POR. Longitudinal analyses during butyrate wash-in showed common responses for all strains as well as specific features of POR that displayed strong initial "overshoot" reactions affecting various stress responses that balanced out over time. Results were partly reproduced in a mutant strain verifying porin deficiencies as the major underlying mechanism for results observed in clinical isolates. Furthermore, direct competition experiments confirmed butyrate as key for amplifying fitness disadvantages based on porin malfunctioning. Results provide new (molecular) insights into ecological consequences of resistance acquisition and can assist in developing measures to prevent colonization and infection based on the underlying resistance mechanism.
期刊介绍:
The intestinal microbiota plays a crucial role in human physiology, influencing various aspects of health and disease such as nutrition, obesity, brain function, allergic responses, immunity, inflammatory bowel disease, irritable bowel syndrome, cancer development, cardiac disease, liver disease, and more.
Gut Microbes serves as a platform for showcasing and discussing state-of-the-art research related to the microorganisms present in the intestine. The journal emphasizes mechanistic and cause-and-effect studies. Additionally, it has a counterpart, Gut Microbes Reports, which places a greater focus on emerging topics and comparative and incremental studies.
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