Abstract
Streptococcus agalactiae (group B Streptococcus [GBS]) is a leading cause of neonatal sepsis and meningitis, peripartum infections in women, and invasive infections in chronically ill or elderly individuals. GBS can be isolated from the gastrointestinal or genital tracts of up to 30% of healthy adults, and infection is thought to arise from invasion from a colonized mucosal site. Accordingly, bacterial surface components that mediate attachment of GBS to host cells or the extracellular matrix represent key factors in the colonization and infection of the human host. We identified a conserved GBS gene of unknown function that was predicted to encode a cell wall-anchored surface protein. Deletion of the gene and a cotranscribed upstream open reading frame (ORF) in GBS strain 515 reduced bacterial adherence to VK2 vaginal epithelial cells in vitro and reduced GBS binding to fibronectin-coated microtiter wells. Expression of the gene product in Lactococcus lactis conferred the ability to adhere to VK2 cells, to fibronectin and laminin, and to fibronectin-coated ME-180 cervical epithelial cells. Expression of the recombinant protein in L. lactis also markedly increased biofilm formation. The adherence function of the protein, named bacterial surface adhesin of GBS (BsaB), depended both on a central BID1 domain found in bacterial intimin-like proteins and on the C-terminal portion of the BsaB protein. Expression of BsaB in GBS, like that of several other adhesins, was regulated by the CsrRS two-component system. We conclude that BsaB represents a newly identified adhesin that participates in GBS attachment to epithelial cells and the extracellular matrix.
Highlights
Streptococcus agalactiae is a leading cause of neonatal sepsis and meningitis, peripartum infections in women, and invasive infections in chronically ill or elderly individuals
The present study investigated the importance of a previously uncharacterized surface protein encoded by sal0825 in GBS adherence and biofilm formation
Based on the results of these experiments, we propose to name the protein bacterial surface adhesin of GBS (BsaB)
Summary
Streptococcus agalactiae (group B Streptococcus [GBS]) is a leading cause of neonatal sepsis and meningitis, peripartum infections in women, and invasive infections in chronically ill or elderly individuals. Analysis of genome sequences of GBS strain 2603V/R (referred to here as 2603) and strain NEM316 revealed 24 or 21 surface proteins, respectively, bearing the LPXTG motif [19, 20] These LPXTG-containing proteins are often involved in (i) bacterial attachment to human cells, such as, for example, the serine-rich repeat family protein Srr-1 and BibA, and/or (ii) binding to ECM components, such as, for example, fibrinogen-binding protein FbsA and fibronectin-binding protein ScpB [6, 10, 11, 13,14,15,16]. Searching the genome sequence of GBS strain 515, a clinical isolate from an infected neonate, we identified a predicted cell wall-anchored protein encoded by sal0825 [20, 21]. In vitro functional analysis of BsaB revealed that the protein participates in GBS binding to human fibronectin and laminin, in the adhesion of GBS to human epithelial cells, and in biofilm formation
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