Abstract
Aeromonas sobria is a pathogen causing food-borne illness. In immunocompromised patients and the elderly, A. sobria can leave the intestinal tract, and this opportunistically leads to severe extraintestinal diseases including sepsis, peritonitis, and meningitis. To cause such extraintestinal diseases, A. sobria must pass through the intestinal epithelial barrier. The mechanism of such bacterial translocation has not been established. Herein we used intestinal (T84) cultured cells to investigate the effect of A. sobria serine protease (ASP) on junctional complexes that maintain the intercellular adhesion of the intestinal epithelium. When several A. sobria strains were inoculated into T84 monolayer grown on Transwell inserts, the strain with higher ASP production largely decreased the value of transepithelial electrical resistance exhibited by the T84 monolayer and markedly caused bacterial translocation from the apical surface into the basolateral side of T84 monolayer. Further experiments revealed that ASP acts on adherens junctions (AJs) and causes the destruction of both nectin-2 and afadin, which are protein components constituting AJs. Other studies have not revealed the bacterial pathogenic factors that cause the destruction of both nectin-2 and afadin, and our present results thus provide the first report that the bacterial extracellular protease ASP affects these molecules. We speculate that the destruction of nectin-2 and afadin by the action of ASP increases the ability of A. sobria to pass through intestinal epithelial tissue and contributes to the severity of pathological conditions.
Highlights
The human intestinal epithelial tissue functions primarily as a physical barrier against various pathogens entering the intestinal tract
A. sobria serine protease (ASP) production is related to the bacterial translocation across the intestinal epithelial barrier
These results strongly suggest that ASP is a major factor inducing a decrease in the transepithelial electrical resistance (TER) and the translocation of A. sobria cells inoculated in the apical surface of T84 monolayer into the basolateral fraction
Summary
The human intestinal epithelial tissue functions primarily as a physical barrier against various pathogens entering the intestinal tract. Individual epithelial cells are joined by junctional complexes, including tight junctions (TJs), adherens junctions (AJs), and desmosomes [1]. A. sobria produces various types of extracellular virulence factors including cytolysins, enterotoxins and proteases [6,7,8] These factors are thought to act in cooperation with each other and to establish the pathogenicity of A. sobria. The intestinal epithelial cells are joined with each other by junctional complexes, including TJs, AJs, and desmosomes [1]. We speculated that ASP produced by an A. sobria infection in the intestinal tract may cause the destruction of intercellular junctions and evoke the bacterial translocation across the intestinal epithelial barrier. We used intestinal cultured cells to investigate the influence of ASP on the functioning of the intestinal epithelial barrier, and we observed that ASP promotes the passage of A. sobria across the intestinal epithelial barrier with the decomposition of several proteins constituting the junctional complexes of the intestinal epithelium
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