Mechanisms of Resistance to Clinically Significant Antibiotics in Bacillus Strains Isolated from Samples Obtained from a Medical Institution

Q3 Agricultural and Biological Sciences
R. R. Yenikeyev, N. Y. Tatarinova, L. M. Zakharchuk, E. N. Vinogradova
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Abstract

Isolates of bacterial strains dominating on the surface of medical equipment used for blood sampling have been studied. Pure cultures of these bacteria have been identified as Bacillus cereus HSA01, Bacillus cereus HSA12, Bacillus cereus HSA03, Bacillus subtilis HSA06, and Bacillus amyloliquefaciens HSA09, and their resistance to a number of β-lactam antibiotics and spectinomycin has been determined. All strains are shown to be resistant to penicillin and ampicillin with the minimum inhibitory concentration (MIC) varying from 256 to 2048 μg/mL as well as to cephalosporin antibiotics with the MIC values varying from 2 to 2048 μg/mL. Resistance to spectinomycin administered to patients with allergic reactions to penicillin and cephalosporins is within the MIC range of 16–256 μg/mL. The ampicillin and cefuroxime resistance of B. cereus HSA01 is provided by the work of efflux pumps, while ceftazidime resistance is determined by the action of metal-β-lactamases (MBL); penicillin resistance is provided by the functioning of both mentioned systems. A high ampicillin and cefuroxime resistance of B. cereus HSA12 is provided by MBL and efflux activities, respectively, whereas ceftazidime resistance is determined by both MBL and efflux pumps. In the case of B. cereus HSA03, the observed resistance to penicillin, ampicillin, cefepime, and ceftazidime is explained by the efflux activity, resistance to cefazolin and ceftazidime is provided by MBL, while ampicillin and ceftazidime resistance is provided by both MBL and efflux. The penicillin and ampicillin resistance of B. subtilis HSA06 is provided by the MBL activity only. In B. amyloliquefaciens HSA09, resistance to ampicillin is provided by MBL and the action of efflux pumps, while penicillin resistance is provided only by the efflux activity. Thus, resistance to penicillin, ampicillin, and cephalosporin derivatives in the studied Bacillus group is provided, depending on the strain and the specific antibiotic, by metal-β-lactamase and/or efflux pumps representing secondary transporters.

Abstract Image

从某医疗机构样本中分离的芽孢杆菌菌株对临床重要抗生素的耐药性机制
摘要本文研究了用于血液采样的医疗设备表面主要细菌的分离物。这些细菌的纯培养物鉴定为蜡样芽孢杆菌HSA01、蜡样芽孢杆菌HSA12、蜡样芽孢杆菌HSA03、枯草芽孢杆菌HSA06和解淀粉芽孢杆菌HSA09,并测定了它们对多种β-内酰胺类抗生素和大霉素的耐药性。所有菌株均对青霉素和氨苄西林耐药,最小抑菌浓度(MIC)为256 ~ 2048 μg/mL;对头孢菌素类抗生素耐药,MIC值为2 ~ 2048 μg/mL。青霉素和头孢菌素过敏反应患者对大观霉素的耐药MIC范围为16 ~ 256 μg/mL。蜡样芽孢杆菌HSA01对氨苄西林和头孢呋辛的耐药性是由外排泵的工作提供的,而对头孢他啶的耐药性是由金属β内酰胺酶(MBL)的作用决定的;青霉素耐药性是由上述两个系统的功能提供的。蜡样芽孢杆菌HSA12对氨苄西林和头孢呋辛的高耐药性分别由MBL和外排活性提供,而对头孢他啶的耐药性则由MBL和外排泵确定。在蜡样芽孢杆菌HSA03中,观察到的对青霉素、氨苄西林、头孢吡肟和头孢他啶的耐药是由外排活性解释的,对头孢唑林和头孢他啶的耐药是由MBL提供的,而氨苄西林和头孢他啶的耐药是由MBL和外排共同提供的。枯草芽孢杆菌HSA06对青霉素和氨苄西林的耐药性仅由MBL活性提供。在解淀粉芽孢杆菌HSA09中,氨苄西林耐药是由MBL和外排泵的作用提供的,而青霉素耐药仅由外排活性提供。因此,所研究的芽孢杆菌群对青霉素、氨苄西林和头孢菌素衍生物的耐药性取决于菌株和特定抗生素,是由金属β-内酰胺酶和/或代表次级转运体的外排泵提供的。
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来源期刊
Moscow University Biological Sciences Bulletin
Moscow University Biological Sciences Bulletin Agricultural and Biological Sciences-Agricultural and Biological Sciences (all)
CiteScore
1.00
自引率
0.00%
发文量
18
期刊介绍: Moscow University Biological Sciences Bulletin  is forum for research in all important areas of modern biology. It publishes original work on qualitative, analytical and experimental aspects of research. The scope of articles to be considered includes plant biology, zoology, ecology, evolutionary biology, biophysics, genetics, genomics, proteomics, molecular biology, cell biology, biochemistry, endocrinology, immunology, physiology, pharmacology, neuroscience, gerontology, developmental biology, bioinformatics, bioengineering, virology, and microbiology.
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