Department of Clinical Microbiology, Slagelse Hospital, Slagelse, Denmark; Department of Science and Environment, Roskilde University, Roskilde, Denmark; Department of Microbiology & Infection Control, Statens Serum Institut, Copenhagen, Denmark.
Department of Clinical Microbiology, Slagelse Hospital, Slagelse, Denmark; Department of Bio and Health Informatics, Technical University of Denmark, Kongens Lyngby, Denmark.
Microb Pathog. 2017 Nov;112:327-340. doi: 10.1016/j.micpath.2017.09.042. Epub 2017 Sep 21.
Aerococcus sanguinicola and Aerococcus urinae are emerging pathogens in clinical settings mostly being causative agents of urinary tract infections (UTIs), urogenic sepsis and more seldomly complicated infective endocarditis (IE). Limited knowledge exists concerning the pathogenicity of these two species. Eight clinical A. sanguinicola (isolated from 2009 to 2015) and 40 clinical A. urinae (isolated from 1984 to 2015) strains from episodes of UTIs, bacteremia, and IE were whole-genome sequenced (WGS) to analyze genomic diversity and characterization of virulence genes involved in the bacterial pathogenicity. A. sanguinicola genome sizes were 2.06-2.12 Mb with 47.4-47.6% GC-contents, and 1783-1905 genes were predicted whereof 1170 were core-genes. In case of A. urinae strains, the genome sizes were 1.93-2.44 Mb with 41.6-42.6% GC-contents, and 1708-2256 genes of which 907 were core-genes. Marked differences were observed within A. urinae strains with respect to the average genome sizes, number and sequence identity of core-genes, proteome conservations, phylogenetic analysis, and putative capsular polysaccharide (CPS) loci sequences. Strains of A. sanguinicola showed high degree of homology. Phylogenetic analyses showed the 40 A. urinae strains formed two clusters according to two time periods: 1984-2004 strains and 2010-2015 strains. Genes that were homologs to virulence genes associated with bacterial adhesion and antiphagocytosis were identified by aligning A. sanguinicola and A. urinae pan- and core-genes against Virulence Factors of Bacterial Pathogens (VFDB). Bacterial adherence associated gene homologs were present in genomes of A. sanguinicola (htpB, fbpA, lmb, and ilpA) and A. urinae (htpB, lap, lmb, fbp54, and ilpA). Fifteen and 11-16 CPS gene homologs were identified in genomes of A. sanguinicola and A. urinae strains, respectively. Analysis of these genes identified one type of putative CPS locus within all A. sanguinicola strains. In A. urinae genomes, five different CPS loci types were identified with variations in CPS locus sizes, genetic content, and structural organization. In conclusion, this is the first study dealing with WGS and comparative genomics of clinical A. sanguinicola and A. urinae strains from episodes of UTIs, bacteremia, and IE. Gene homologs associated with antiphagocytosis and bacterial adherence were identified and genetic variability was observed within A. urinae genomes. These findings contribute with important knowledge and basis for future molecular and experimental pathogenicity study of UTIs, bacteremia, and IE causing A. sanguinicola and A. urinae strains.
血链球菌和尿肠球菌是临床环境中新兴的病原体,主要引起尿路感染(UTIs)、尿源性败血症,较少引起复杂的感染性心内膜炎(IE)。关于这两种菌的致病性,我们的了解还很有限。我们对 8 株临床分离的血链球菌(2009 年至 2015 年分离)和 40 株临床分离的尿肠球菌(1984 年至 2015 年分离)进行了全基因组测序(WGS),以分析与细菌致病性相关的毒力基因的基因组多样性和特征。血链球菌的基因组大小为 2.06-2.12 Mb,GC 含量为 47.4-47.6%,预测有 1783-1905 个基因,其中 1170 个是核心基因。对于尿肠球菌株,基因组大小为 1.93-2.44 Mb,GC 含量为 41.6-42.6%,预测有 1708-2256 个基因,其中 907 个是核心基因。尿肠球菌株之间在平均基因组大小、核心基因的数量和序列同一性、蛋白质组保守性、系统发育分析和潜在荚膜多糖(CPS)基因座序列方面存在明显差异。血链球菌株表现出高度同源性。系统发育分析表明,40 株尿肠球菌株根据两个时间段形成了两个聚类:1984-2004 年株和 2010-2015 年株。通过将血链球菌和尿肠球菌的泛基因和核心基因与细菌病原体的毒力因子(VFDB)进行比对,鉴定出与细菌黏附和抗吞噬作用相关的同源毒力基因。在血链球菌(htpB、fbpA、lmb 和 ilpA)和尿肠球菌(htpB、lap、lmb、fbp54 和 ilpA)的基因组中都存在与细菌黏附相关的基因同源物。在血链球菌和尿肠球菌株的基因组中分别鉴定出 15 个和 11-16 个 CPS 基因同源物。对这些基因的分析确定了所有血链球菌株中存在一个类型的潜在 CPS 基因座。在尿肠球菌基因组中,鉴定出了 5 种不同的 CPS 基因座类型,其 CPS 基因座大小、遗传内容和结构组织存在差异。总之,这是首次对尿路感染、菌血症和 IE 中临床分离的血链球菌和尿肠球菌株进行全基因组测序和比较基因组学研究。鉴定出了与抗吞噬和细菌黏附相关的基因同源物,并观察到尿肠球菌基因组内存在遗传变异。这些发现为进一步研究血链球菌和尿肠球菌引起的尿路感染、菌血症和 IE 的分子和实验致病性提供了重要的知识和基础。
