尿路感染中的泄殖腔肠杆菌:频率、蛋白质分析和抗菌药耐药性。

IF 3.5 3区 生物学 Q2 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Ayman Elbehiry, Mansor Al Shoaibi, Hamzah Alzahrani, Mai Ibrahem, Ihab Moussa, Feras Alzaben, Rousa A Alsubki, Hassan A Hemeg, Dakheel Almutairi, Saleh Althobaiti, Fawaz Alanazi, Sultan A Alotaibi, Hamoud Almutairi, Ali Alzahrani, Akram Abu-Okail
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引用次数: 0

摘要

肠杆菌属属于 ESKAPE 菌群,包括粪肠球菌、金黄色葡萄球菌、肺炎克雷伯菌、鲍曼不动杆菌、铜绿假单胞菌和肠杆菌属。近年来,泄殖腔肠杆菌(E. cloacae)已成为一种重要的临床病原体,是多种医疗相关疾病的罪魁祸首。由于肠杆菌具有相似的表型特征,因此鉴别它们是一项挑战。对多种药物耐药的泄殖腔肠杆菌的出现也是医疗环境中的一个重要问题。因此,我们的研究旨在利用基质辅助激光解吸电离飞行时间质谱(MALDI-TOF MS)这一快速、精确的蛋白质组分析技术来鉴定和区分泄殖腔肠杆菌。我们还针对治疗尿路感染(UTI)的常用抗生素对医院获得的产生广谱β-内酰胺酶(ESBL)的泄殖腔杆菌分离株进行了测试。我们从 2300 份尿路感染患者的尿液样本中总共分离出 189 株 E. cloacae。我们采用了培养技术以及 BD Phoenix™ 自动识别系统(Becton, Dickinson)和分析概况指数(API)系统对分离出的泄殖腔杆菌进行生化鉴定。我们使用 MALDI Biotyper (MBT) 设备对所有分离物进行肽质量指纹分析。我们利用 MBT Compass 软件创建的单峰强度和主成分分析(PCA)来区分和聚类泄殖腔杆菌分离物。此外,我们还使用 Kirby Bauer 方法评估了 ESBL-E. cloacae 分离物的敏感性和耐药性。在 189 个氯雷他氏菌分离物中,BD Phoenix 系统正确鉴定了 180 个(95.24%)分离物,而 API 系统正确鉴定了 165 个(87.30%)分离物。然而,MBT 能准确鉴定出 185 个(98.95%)得分在 2.00 或以上的分离物。PCA 可将已鉴定的泄殖腔杆菌分离物分为一组,并在 4230 质量电荷比(m/z)和 8500 m/z 之间发现明显的峰值。ESBL-E. cloacae 分离物对氨苄西林、阿莫西林-克拉维酸、头孢菌素、头孢呋辛和头孢西丁的耐药性较高。一些分离菌株对碳青霉烯类(美罗培南、亚胺培南和厄他培南)敏感,但应考虑到未来可能出现的对碳青霉烯类的耐药性。总之,MALDI-TOF MS 是一种强大而精确的技术,可常规用于识别和区分临床样本中的各种病原体。此外,这种细菌日益增长的抗菌药耐药性可能会对人类健康造成重大威胁。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Enterobacter cloacae from urinary tract infections: frequency, protein analysis, and antimicrobial resistance.

Enterobacter cloacae from urinary tract infections: frequency, protein analysis, and antimicrobial resistance.

The genus Enterobacter belongs to the ESKAPE group, which includes Enterococcus faecium, Staphylococcus aureus, Klebsiella pneumoniae, Acinetobacter baumannii, Pseudomonas aeruginosa, and Enterobacter spp. This group is characterized by the development of resistance to various antibiotics. In recent years, Enterobacter cloacae (E. cloacae) has emerged as a clinically important pathogen responsible for a wide range of healthcare-associated illnesses. Identifying Enterobacter species can be challenging due to their similar phenotypic characteristics. The emergence of multidrug-resistant E. cloacae is also a significant problem in healthcare settings. Therefore, our study aimed to identify and differentiate E. cloacae using Matrix-assisted laser desorption ionization-time of flight mass spectrometry (MALDI-TOF MS) as a fast and precise proteomic analytical technique. We also tested hospital-acquired E. cloacae isolates that produce Extended-spectrum beta-lactamases (ESBL) against commonly used antibiotics for treating urinary tract infections (UTIs). We used a total of 189 E. cloacae isolates from 2300 urine samples of patients with UTIs in our investigation. We employed culturing techniques, as well as the BD Phoenix™ automated identification system (Becton, Dickinson) and Analytical Profile Index (API) system for the biochemical identification of E. cloacae isolates. We used the MALDI Biotyper (MBT) device for peptide mass fingerprinting analysis of all isolates. We utilized the single peak intensities and Principal Component Analysis (PCA) created by MBT Compass software to discriminate and cluster the E. cloacae isolates. Additionally, we evaluated the sensitivity and resistance of ESBL-E. cloacae isolates using the Kirby Bauer method. Out of the 189 E. cloacae isolates, the BD Phoenix system correctly identified 180 (95.24%) isolates, while the API system correctly identified 165 (87.30%) isolates. However, the MBT accurately identified 185 (98.95%) isolates with a score of 2.00 or higher. PCA positively discriminated the identified E. cloacae isolates into one group, and prominent peaks were noticed between 4230 mass-to-charge ratio (m/z) and 8500 m/z. The ESBL-E. cloacae isolates exhibited a higher degree of resistance to ampicillin, amoxicillin-clavulanate, cephalothin, cefuroxime, and cefoxitin. Several isolates were susceptible to carbapenems (meropenem, imipenem, and ertapenem); however, potential future resistance against carbapenems should be taken into consideration. In conclusion, MALDI-TOF MS is a powerful and precise technology that can be routinely used to recognize and differentiate various pathogens in clinical samples. Additionally, the growing antimicrobial resistance of this bacterium may pose a significant risk to human health.

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来源期刊
AMB Express
AMB Express BIOTECHNOLOGY & APPLIED MICROBIOLOGY-
CiteScore
7.20
自引率
2.70%
发文量
141
审稿时长
13 weeks
期刊介绍: AMB Express is a high quality journal that brings together research in the area of Applied and Industrial Microbiology with a particular interest in ''White Biotechnology'' and ''Red Biotechnology''. The emphasis is on processes employing microorganisms, eukaryotic cell cultures or enzymes for the biosynthesis, transformation and degradation of compounds. This includes fine and bulk chemicals, polymeric compounds and enzymes or other proteins. Downstream processes are also considered. Integrated processes combining biochemical and chemical processes are also published.
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