Capsular Type, Sequence Type and Microbial Resistance Factors Impact on DNase Activity of Streptococcus agalactiae Strains from Human and Bovine Origin.

Carlos Florindo, Cinthia Alves Barroco, Inês Silvestre, Vera Damião, João Paulo Gomes, Barbara Spellerberg, Ilda Santos-Sanches, Maria José Borrego
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引用次数: 8

Abstract

Extracellular deoxyribonucleases (DNases) contribute to the spread of pathogenic bacteria through the evasion from host innate immunity. Our main objective was to evaluate the production of extracellular DNases by human and bovine Streptococcus agalactiae clinical strains and perform a correlation of genetic lineages and DNase activity with capsular type, genetic determinants, clinical origin (colonization and infection), and host (human or bovine). DNase activity was evaluated by qualitative and quantitative assays for a collection of 406 human (n = 285) and bovine (n = 121) strains. All (121/121) bovine were isolated from mastitis and revealed to be DNase (+), indicating a putative pathogenic role in this clinical scenario. From the human S. agalactiae strains, 86% (245/285) showed DNase activity, among which all strains belonging to capsular types, namely, Ia, Ib, III-2, and IV. All CC17 strains (n = 58) and 56/96 (58.3%) of the CC19 displayed DNase activity. DNase (-) strains belonged to the CC19 group. However, the subcharacterization of CC19 S. agalactiae strains through multiple-locus variable number tandem repeat analysis (MLVA), antibiotic resistance, mobile elements, and surface proteins did not provide any distinction among DNase producers and non-producers. The production of DNases by all human CC17 strains, about two-fifths of human CC19, and all bovine strains, suggest an important contribution of DNases to hypervirulence.

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衣壳类型、序列类型和微生物抗性因素对人和牛来源无乳链球菌DNA酶活性的影响。
细胞外脱氧核糖核酸酶(DNase)通过逃避宿主先天免疫而促进病原菌的传播。我们的主要目的是评估人和牛无乳链球菌临床菌株产生细胞外DNase的情况,并将遗传谱系和DNase活性与荚膜类型、遗传决定因素、临床来源(定植和感染)和宿主(人或牛)进行相关性。通过对406株人(n=285)和牛(n=121)菌株的定性和定量测定来评估DNA酶活性。所有(121/121)头牛都是从乳腺炎中分离出来的,并且显示出DNase(+),这表明在这种临床情况下具有假定的致病作用。在人无乳双歧杆菌菌株中,86%(245/285)的菌株显示出DNase活性,其中所有菌株均属于荚膜型,即Ia、Ib、III-2和IV。所有CC17菌株(n=58)和56/96(58.3%)的CC19菌株均显示出DN酶活性。DNase(-)菌株属于CC19组。然而,通过多基因座可变数量串联重复序列分析(MLVA)、抗生素耐药性、可移动元件和表面蛋白对CC19无乳双歧杆菌菌株的亚特性进行分析,并没有对DNA酶产生者和非产生者进行任何区分。所有人CC17菌株、约五分之二的人CC19菌株和所有牛菌株产生DNA酶,表明DNA酶对高通气有重要贡献。
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