Proteomic profiling of antibiotic-resistant Escherichia coli GW-AmxH19 isolated from hospital wastewater treated with physical plasma

IF 3.4 4区 生物学 Q2 BIOCHEMICAL RESEARCH METHODS Proteomics Pub Date : 2024-04-21 DOI:10.1002/pmic.202300494
Veronika Hahn, Daniela Zühlke, Hauke Winter, Annchristin Landskron, Jörg Bernhardt, Susanne Sievers, Michael Schmidt, Thomas von Woedtke, Katharina Riedel, Juergen F. Kolb
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Abstract

Microorganisms which are resistant to antibiotics are a global threat to the health of humans and animals. Wastewater treatment plants are known hotspots for the dissemination of antibiotic resistances. Therefore, novel methods for the inactivation of pathogens, and in particular antibiotic-resistant microorganisms (ARM), are of increasing interest. An especially promising method could be a water treatment by physical plasma which provides charged particles, electric fields, UV-radiation, and reactive species. The latter are foremost responsible for the antimicrobial properties of plasma. Thus, with plasma it might be possible to reduce the amount of ARM and to establish this technology as additional treatment stage for wastewater remediation. However, the impact of plasma on microorganisms beyond a mere inactivation was analyzed in more detail by a proteomic approach. Therefore, Escherichia coli GW-AmxH19, isolated from hospital wastewater in Germany, was used. The bacterial solution was treated by a plasma discharge ignited between each of four pins and the liquid surface. The growth of E. coli and the pH-value decreased during plasma treatment in comparison with the untreated control. Proteome and antibiotic resistance profile were analyzed. Concentrations of nitrite and nitrate were determined as long-lived indicative products of a transient chemistry associated with reactive nitrogen species (RNS). Conversely, hydrogen peroxide served as indicator for reactive oxygen species (ROS). Proteome analyses revealed an oxidative stress response as a result of plasma-generated RNS and ROS as well as a pH-balancing reaction as key responses to plasma treatment. Both, the generation of reactive species and a decreased pH-value is characteristic for plasma-treated solutions. The plasma-mediated changes of the proteome are discussed also in comparison with the Gram-positive bacterium Bacillus subtilis. Furthermore, no effect of the plasma treatment, on the antibiotic resistance of E. coli, was determined under the chosen conditions. The knowledge about the physiological changes of ARM in response to plasma is of fundamental interest to understand the molecular basis for the inactivation. This will be important for the further development and implementation of plasma in wastewater remediation.

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从经物理血浆处理的医院废水中分离出的抗生素耐药大肠埃希氏菌 GW-AmxH19 的蛋白质组分析。
对抗生素具有抗药性的微生物对人类和动物的健康构成全球性威胁。众所周知,污水处理厂是抗生素耐药性传播的热点地区。因此,灭活病原体,特别是抗生素耐药微生物(ARM)的新方法越来越受到人们的关注。一种特别有前途的方法是利用物理等离子体对水进行处理,这种等离子体可提供带电粒子、电场、紫外线辐射和活性物质。后者是等离子体具有抗菌特性的主要原因。因此,利用等离子体可以减少 ARM 的用量,并将该技术作为废水修复的附加处理阶段。不过,除了灭活微生物外,我们还通过蛋白质组学方法更详细地分析了血浆对微生物的影响。因此,我们使用了从德国医院废水中分离出来的大肠杆菌 GW-AmxH19。细菌溶液通过在四个针脚和液体表面之间点燃的等离子体放电进行处理。与未经处理的对照组相比,等离子处理期间大肠杆菌的生长和 pH 值均有所下降。对蛋白质组和抗生素耐药性概况进行了分析。亚硝酸盐和硝酸盐的浓度被确定为与活性氮物种(RNS)相关的瞬时化学反应的长效指示性产物。相反,过氧化氢则是活性氧(ROS)的指标。蛋白质组分析表明,等离子体产生的 RNS 和 ROS 导致的氧化应激反应以及 pH 平衡反应是等离子体处理的关键反应。活性物质的产生和 pH 值的降低都是等离子处理溶液的特征。与革兰氏阳性细菌枯草杆菌相比,等离子体介导的蛋白质组变化也得到了讨论。此外,在所选条件下,等离子处理对大肠杆菌的抗生素耐药性没有影响。了解 ARM 在血浆作用下的生理变化对于理解灭活的分子基础具有重要意义。这对于进一步开发和实施等离子体在废水修复中的应用非常重要。
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来源期刊
Proteomics
Proteomics 生物-生化研究方法
CiteScore
6.30
自引率
5.90%
发文量
193
审稿时长
3 months
期刊介绍: PROTEOMICS is the premier international source for information on all aspects of applications and technologies, including software, in proteomics and other "omics". The journal includes but is not limited to proteomics, genomics, transcriptomics, metabolomics and lipidomics, and systems biology approaches. Papers describing novel applications of proteomics and integration of multi-omics data and approaches are especially welcome.
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