Paracellular intestinal permeability of chickens induced by DON and/or C. jejuni is associated with alterations in tight junction mRNA expression.

ABSTRACT

Toxins, antigens, and harmful pathogens continuously challenge the intestinal mucosa. Therefore, regulation of the intestinal barrier is crucial for the maintenance of mucosal homeostasis and gut health. Intercellular complexes, namely, tight junctions (TJs), regulate paracellular permeability. TJs are mainly composed of claudins (CLDN), occludin (OCLN), tight junction associated MARVEL-domain proteins (TAMPS), the scaffolding zonula occludens (ZO) proteins and junction-adhesion molecules (JAMs). Different studies have shown that a Campylobacter infection can lead to a phenomenon so-called "leaky gut", including the translocation of luminal bacteria to the underlying tissue and internal organs. Based on the effects of C. jejuni on the chicken gut, we hypothesize that impacts on TJ proteins play a crucial role in the destructive effects of the intestinal barrier. Likewise, the mycotoxin deoxynivalenol (DON) can also alter gut permeability in chickens. Albeit DON and C. jejuni are widely distributed, no data are available on their effect on the tight junctions' barrier in the broiler intestine and consequences for permeability. Therefore, the aim of this study was to analyze the interaction between DON and C. jejuni on the gut barrier by linking permeability with gene expression of TJ proteins and to determine the relationships between the measurements. Following oral infection of birds with C. jejuni NCTC 12744 at 14 days of age, we demonstrate that the co-exposure with DON has considerable consequences on gut permeability as well as on gut TJ mRNA expression. Co-exposure of DON and C. jejuni enhanced the negative effect on paracellular permeability of the intestine, which was also noticed for the bacteria or the mycotoxin alone by the Ussing chamber technique at certain time points in both jejunum and caecum. Furthermore, the increased paracellular permeability was associated with significant changes in TJ mRNA expression in the small and large intestine. The actual study demonstrates that co-exposure of broiler chickens to DON and C. jejuni resulted in a decreased barrier function via up-regulation of pore-forming tight junctions (CLDN7 and CLDN10), as well as the cytosolic TJ protein occludin (OCLN) that can shift to various paracellular locations and are therefore able to alter the epithelial permeability. These findings indicate that the co-exposure of broiler chickens to DON and C. jejuni affects the paracellular permeability of the gut by altering the tight junction proteins. Furthermore, analysing of correlations between TJs revealed that the mRNA expression levels of most tight junctions were correlated with each other in both jejunum and caecum. Finally, the findings indicate that the molecular composition of tight junctions can be used as a marker for gut health and integrity.