Plesiomonas shigelloides Enters Polarized Human Intestinal Caco-2 Cells in an In Vitro Model System

Abstract

ABSTRACT This study provides the first definitive evidence that the gram-negative bacterium Plesiomonas shigelloides adheres to and enters eukaryotic intestinal host cells in vitro. P. shigelloides is increasingly regarded as an emerging enteric pathogen and has been implicated in intestinal and extraintestinal infections in humans. However, the establishment of its true role in enteric disease has been hindered by inadequacies in experimental design, deficiencies in clinical diagnosis, and the lack of an appropriate animal model. In this investigation, an in vitro system was used to evaluate plesiomonad pathogenesis. Differentiated epithelium-derived Caco-2 cell monolayers inoculated apically with 12 isolates of P. shigelloides from clinical (intestinal) origins were examined at high resolution using transmission electron microscopy. Bacterial cells were observed adhering to intact microvilli and to the plasma membrane on both the apical and the basal surfaces of the monolayer. The bacteria entered the Caco-2 cells and were observed enclosed in single and multiple membrane-bound vacuoles within the host cell cytoplasm. This observation suggests that initial uptake may occur through a phagocytic-like process, as has been documented for many other enteropathogens. P. shigelloides also was noted free in the cytosol of Caco-2 cells, suggesting escape from cytoplasmic vacuoles. Differences in invasion phenotypes were revealed, suggesting the possibility that, like Escherichia coli, P. shigelloides comprises different pathogenic phenotypes.