Abstract
Streptococcus pneumoniae is the most frequent cause of community-acquired pneumonia. The infection process involves bacterial cell surface receptors, which interact with host extracellular matrix components to facilitate colonization and dissemination of bacteria. Here, we investigated the role of host-derived extracellular RNA (eRNA) in the process of pneumococcal alveolar epithelial cell infection. Our study demonstrates that eRNA dose-dependently increased S. pneumoniae invasion of alveolar epithelial cells. Extracellular enolase (Eno), a plasminogen (Plg) receptor, was identified as a novel eRNA-binding protein on S. pneumoniae surface, and six Eno eRNA-binding sites including a C-terminal 15 amino acid motif containing lysine residue 434 were characterized. Although the substitution of lysine 434 for glycine (K434G) markedly diminished the binding of eRNA to Eno, the adherence to and internalization into alveolar epithelial cells of S. pneumoniae strain carrying the C-terminal lysine deletion and the mutation of internal Plg-binding motif were only marginally impaired. Accordingly, using a mass spectrometric approach, we identified seven novel eRNA-binding proteins in pneumococcal cell wall. Given the high number of eRNA-interacting proteins on pneumococci, treatment with RNase1 completely inhibited eRNA-mediated pneumococcal alveolar epithelial cell infection. Our data support further efforts to employ RNAse1 as an antimicrobial agent to combat pneumococcal infectious diseases.
Highlights
Streptococcus pneumoniae is a Gram-positive bacterium, which is a main cause of community-acquired pneumonia (CAP)
In order to investigate the role of extracellular RNA (eRNA) in S. pneumoniae infection, we first tested whether eRNA associates with lung epithelial cell membrane
In order to clarify the effect of eRNA-supplementation on bacterial internalization, antibiotic protection assays with a pneumolysin-deficient strain (SpΔply) were performed (Fig. 1E)
Summary
Streptococcus pneumoniae is a Gram-positive bacterium, which is a main cause of community-acquired pneumonia (CAP). In addition to the pore-forming cytotoxin pneumolysin and the phagocytosis-inhibiting polysaccharide capsule, the virulence of S. pneumoniae is promoted by the capacity of bacteria to bind to and internalise into host cells and to spread into host tissue. All these processes require the involvement of bacterial cell wall-associated components, adhesins[6]. Adhesins bind to eukaryotic cell surface receptors[7,8] or extracellular matrix (ECM) components[9,10] They can be divided into two groups: cell-wall-anchored polypeptides[8,11,12] and anchorless proteins[13,14,15,16,17]. Administration of RNase[1] can disrupt the invasion process and serves as a new anti-infectious agent
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