Abstract

Attachment to the host mucosa is a key step in bacterial pathogenesis. On the apical surface of epithelial cells, members of the human carcinoembryonic antigen (CEA) family are abundant glycoproteins involved in cell-cell adhesion and modulation of cell signaling. Interestingly, several gram-negative bacterial pathogens target these receptors by specialized adhesins. The prototype of a CEACAM-binding pathogen, Neisseria gonorrhoeae, utilizes colony opacity associated (Opa) proteins to engage CEA, as well as the CEA-related cell adhesion molecules CEACAM1 and CEACAM6 on human epithelial cells. By heterologous expression of neisserial Opa proteins in non-pathogenic E. coli we find that the Opa protein-CEA interaction is sufficient to alter gene expression, to increase integrin activity and to promote matrix adhesion of infected cervical carcinoma cells and immortalized vaginal epithelial cells in vitro. These CEA-triggered events translate in suppression of exfoliation and improved colonization of the urogenital tract by Opa protein-expressing E. coli in CEA-transgenic compared to wildtype mice. Interestingly, uropathogenic E. coli expressing an unrelated CEACAM-binding protein of the Afa/Dr adhesin family recapitulate the in vitro and in vivo phenotype. In contrast, an isogenic strain lacking the CEACAM-binding adhesin shows reduced colonization and does not suppress epithelial exfoliation. These results demonstrate that engagement of human CEACAMs by distinct bacterial adhesins is sufficient to blunt exfoliation and to promote host infection. Our findings provide novel insight into mucosal colonization by a common UPEC pathotype and help to explain why human CEACAMs are a preferred epithelial target structure for diverse gram-negative bacteria to establish a foothold on the human mucosa.

Highlights

  • During evolution bacteria have developed fascinating strategies to colonize multicellular organisms

  • The OpaCEA protein expressed in E. coli showed a similar size to the native OpaCEA protein expressed in N. gonorrhoeae, but levels were only about 20% of that observed in gonococci (S1A Fig)

  • When expressed in E. coli, the neisserial opacity associated (Opa) protein adhesin was functional with regard to CEA-related cell adhesion molecules (CEACAMs)-binding, as E. coli OpaCEA was able to associate with the green fluorescent protein (GFP)-tagged amino-terminal domain of carcinoembryonic antigen (CEA) (CEA-N; Fig 1A)

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Summary

Introduction

During evolution bacteria have developed fascinating strategies to colonize multicellular organisms. Mucosal epithelia have several additional tissue-intrinsic defense mechanisms that protect the surface from adherent pathogens [5] In both stratified as well as single-layered epithelia the superficial cells are constantly replaced from a stem cell population. This tissue turnover leads to shedding of cell-associated microbes from the epithelium reducing the bacterial burden. Exfoliation is an innate protective mechanism that, via rapid detachment and shedding of the infected superficial cells, limits colonization of the tissue by the microflora and prohibits further penetration of the bacteria [13]. Even cell-associated bacteria can be removed from the tissue surface together with the infected cells

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