Abstract
ObjectiveThis study evaluated the cell invasion ability (CIA) of Streptococcus agalactiae isolates from humans and companion animals and clarified the relationship between CIA populations and their microbiological features. MethodsHuman-origin and companion animal-origin isolates were collected along with host information. We measured CIA using human-lineage colon cancer epithelium (Caco-2) and keratinocyte (HaCaT) cell lines, via virulence-associated gene profiling (bca-rib-bac-lmb-cylE-hylB-pavA-pilB-spb1-srtC1-brpA), capsular genotyping, multilocus sequence typing, and antimicrobial resistance (AMR) phenotyping/genotyping. Significant differences in data regarding CIA into epithelium and keratinocytes and those of isolates from different hosts were assessed. We analyzed the association of CIA populations with the virulence genotypes, capsular genotypes, sequence types/clonal complexes, and AMR phenotypes/genotypes. ResultsA comparative analysis was performed between human (n = 15) and canine (n = 17) non-invasive isolates. There was a difference in CIA data between Caco-2 and HaCaT cells using human and animal isolates. For percent invasion ability into Caco-2 cells, we designated values ≥ 0.1 as high-frequency CIA and values < 0.1 as low-frequency CIA. Fourteen isolates harbored high-frequency and 18 isolates harbored low-frequency strains. There was no association between the high-frequency population and the virulence genotypes, capsular genotypes, sequence types/clonal complexes, and AMR phenotypes/genotypes. ConclusionThis is the first report assessing the invasion ability of S. agalactiae into HaCaT and Caco-2 cells. Our observations suggest that S. agalactiae is more capable of entering Caco-2 rather than HaCaT.
Published Version
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