Heterogeneity of Antibiotic-Resistant Isolates of Listeria Monocytogenes Isolated from Food Products in Moscow

Y. V. Mikhailova, A. D. Molchanov, A. Shelenkov, M. Tyumentseva, K. Karbyshev, A. I. Tyumentsev, A. Egorova, N. G. Kulikova, I. N. Manzenyuk, V. G. Akimkin
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Abstract

Relevance. Listeria monocytogenes is a ubiquitous bacterium that causes listeriosis, which represents a widespread infectious disease currently inflicting great damage to livestock production and posing a serious threat to human health.Aim. To analyze the population structure and assess the pathogenic potential of Listeria monocytogenes isolates isolated on the territory of the Russian Federation.Materials and methods. A total of 79 listeria isolates were isolated from food products. Species identification and phenotypic analysis for antibiotic resistance were performed using VITEK MS system (bioMerieux, Marcyl’toile, France). Thirty-five antibiotic-resistant isolates were characterized by analysis of whole-genome sequencing data.Results. Whole genome sequences of thirty-five antibiotic-resistant Listeria monocytogenes isolates of food origin were analyzed. We determined clonal structure of this population and revealed a small number of antibiotic resistance determinants (fosX, tetM и сlpL), extensive set of virulence factors, as well as the presence of CRISPR/Cas systems. Most of the isolates belonged to phylogenetic line II and were divided into nine clonal complexes with the prevalence of CC121, which was one of the epidemiologically significant genetic clones. Two CC2 isolates belonging to the most pathogenic phylogenetic lineage I were also found. Thirteen isolates were characterized by the presence of putative CRISPR/Cas systems of IB and IIA types. All ST 121 isolates contained two types of identified adaptive immunity systems simultaneously in their genomes. Correlation analysis confirmed their functionality.Conclusion. We believe that the whole genome data obtained for the foodborne Listeria monocytogenes isolates will facilitate and complement further epidemiological studies of this pathogen, as well as the investigations of its genome variability in terms of the acquisition of various genetic elements associated with adaptation, antimicrobial resistance, and virulence. Moreover, the results of such studies will help to develop preventive measures to effectively solve problems associated with the bacterial contamination of animal products and ensure food safety in production conditions and the «farm-to-table» chain.
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莫斯科食品中分离出的李斯特菌抗生素耐药菌株的异质性
相关性。单核细胞增生李斯特菌是一种无处不在的细菌,可导致李斯特菌病,是一种广泛传播的传染病,目前对畜牧业生产造成了巨大破坏,并对人类健康构成严重威胁。分析俄罗斯联邦境内分离出的李斯特菌的种群结构并评估其致病潜力。共从食品中分离出 79 株李斯特菌。使用 VITEK MS 系统(bioMerieux,Marcyl'toile,法国)进行了菌种鉴定和抗生素耐药性表型分析。通过分析全基因组测序数据,对 35 株抗生素耐药性分离菌进行了鉴定。我们分析了 35 个食品来源的耐抗生素李斯特菌分离物的全基因组序列。我们确定了这一群体的克隆结构,发现了少量抗生素耐药性决定因子(fosX、tetM и сlpL)、大量毒力因子以及 CRISPR/Cas 系统的存在。大多数分离株属于系统发育线 II,分为 9 个克隆复合体,其中以 CC121 为主,它是具有流行病学意义的基因克隆之一。此外,还发现了两个属于致病性最强的系统发育系 I 的 CC2 分离物。13 个分离物的特征是存在 IB 和 IIA 类型的假定 CRISPR/Cas 系统。所有 ST 121 分离物的基因组中都同时含有两种类型的适应性免疫系统。相关性分析证实了它们的功能性。我们相信,从食源性单核细胞增生李斯特菌分离物中获得的全基因组数据将促进和补充对该病原体的进一步流行病学研究,以及对其基因组变异性的调查,即获得与适应性、抗菌药耐药性和毒力相关的各种遗传因子。此外,此类研究的结果将有助于制定预防措施,有效解决与动物产品细菌污染有关的问题,确保生产条件和 "从农场到餐桌 "链条中的食品安全。
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