Abstract
Biofilm formation has been shown to be critical to the success of uropathogens. Although Staphylococcus saprophyticus is a common cause of urinary tract infections, its biofilm production capacity, composition, genetic basis, and origin are poorly understood. We investigated biofilm formation in a large and diverse collection of S. saprophyticus (n = 422). Biofilm matrix composition was assessed in representative strains (n = 63) belonging to two main S. saprophyticus lineages (G and S) recovered from human infection, colonization, and food-related environment using biofilm detachment approach. To identify factors that could be associated with biofilm formation and structure variation, we used a pangenome-wide association study approach. Almost all the isolates (91%; n = 384/422) produced biofilm. Among the 63 representative strains, we identified eight biofilm matrix phenotypes, but the most common were composed of protein or protein–extracellular DNA (eDNA)–polysaccharides (38%, 24/63 each). Biofilms containing protein–eDNA–polysaccharides were linked to lineage G and environmental isolates, whereas protein-based biofilms were produced by lineage S and infection isolates (p < 0.05). Putative biofilm-associated genes, namely, aas, atl, ebpS, uafA, sasF, sasD, sdrH, splE, sdrE, sdrC, sraP, and ica genes, were found with different frequencies (3–100%), but there was no correlation between their presence and biofilm production or matrix types. Notably, icaC_1 was ubiquitous in the collection, while icaR was lineage G-associated, and only four strains carried a complete ica gene cluster (icaADBCR) except one that was without icaR. We provided evidence, using a comparative genomic approach, that the complete icaADBCR cluster was acquired multiple times by S. saprophyticus and originated from other coagulase-negative staphylococci. Overall, the composition of S. saprophyticus biofilms was distinct in environmental and clinical isolates, suggesting that modulation of biofilm structure could be a key step in the pathogenicity of these bacteria. Moreover, biofilm production in S. saprophyticus is ica-independent, and the complete icaADBCR was acquired from other staphylococci.
Highlights
Staphylococcus saprophyticus is a uropathogen associated with 10–20% of urinary tract infection (UTI) in sexually active young women worldwide (Raz et al, 2005; Kline and Lewis, 2016)
We aimed to explore the heterogeneity in matrix composition of biofilms produced by S. saprophyticus and to explore how biofilm phenotypes are distributed in the population and how they correlate with genetic content
All S. saprophyticus isolates (n = 422) recovered from human colonization and infection including UTI and food-related environment were assessed for their ability to produce biofilm
Summary
Staphylococcus saprophyticus is a uropathogen associated with 10–20% of urinary tract infection (UTI) in sexually active young women worldwide (Raz et al, 2005; Kline and Lewis, 2016). Possible complications such as acute pyelonephritis, urethritis (Hovelius et al, 1984), and endocarditis (Garduño et al, 2005; Choi et al, 2006), especially in immunocompromised individuals, have been documented. S. saprophyticus is a frequent colonizer of the human gastrointestinal tract, cervix, urethra, vagina, perineum, and rectum (Latham et al, 1983; Rupp et al, 1992). S. saprophyticus pathogenicity has been described to be associated with its capacity to adhere to uroepithelial cells promoted by adhesins, surface proteins, and biofilm production (Kuroda et al, 2005; Martins et al, 2019)
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