ABSTRACT
The mechanisms whereby Campylobacter jejuni translocates across the host intestinal epithelium are not yet understood and the transepithelial route remains undefined. During C. jejuni translocation, the transmonolayer electrical resistance (TER) across polarised monolayers of Caco-2 cells is not affected and the penetration of [(14)C]inulin across the monolayers does not increase. Over 24 h, however, bacteria damage the monolayer integrity, causing a decrease in the TER. These results support C. jejuni translocation through the cytoplasm of invaded cells (transcellular) rather than via intercellular spaces (paracellular).
Subject(s)
Bacterial Translocation , Campylobacter jejuni/physiology , Caco-2 Cells , Electric Impedance , Humans , Tight Junctions/microbiologyABSTRACT
Campylobacter jejuni colonizes the intestines of domestic and wild animals and is a common cause of human diarrheal disease. We identified a two-component regulatory system, designated the RacR-RacS (reduced ability to colonize) system, that is involved in a temperature-dependent signalling pathway. A mutation of the response regulator gene racR reduced the organism's ability to colonize the chicken intestinal tract and resulted in temperature-dependent changes in its protein profile and growth characteristics.