Deoxynivalenol increases pro-inflammatory cytokine secretion and reduces primary bile acid transport in an inflamed intestinal in vitro co-culture model

[Display omitted] •A novel intestinal in vitro co-culture model was developed to study the active transport in the inflamed intestine.•The active transport of primary bile acids is reduced in the inflamed co-cultures compared to healthy co-cultures.•Deoxynivalenol increases pro-inflammatory cytokine...

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Bibliographic Details
Published in:Food research international 2023-11, Vol.173, p.113323-113323, Article 113323
Main Authors: Wang, Jingxuan, Bakker, Wouter, de Haan, Laura, Bouwmeester, Hans
Format: Article
Language:English
Subjects:
Bile acid transport
Deoxynivalenol
In vitro co-cultures
Inflammation
Intestine
Primary bile acid
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Summary:[Display omitted] •A novel intestinal in vitro co-culture model was developed to study the active transport in the inflamed intestine.•The active transport of primary bile acids is reduced in the inflamed co-cultures compared to healthy co-cultures.•Deoxynivalenol increases pro-inflammatory cytokine secretion and reduces bile acid transport in an inflamed intestine.•Local activation of immune cells reinforces the direct pro-inflammatory effects of DON on epithelial cells in intestine. The fungal secondary metabolite deoxynivalenol (DON) that can contaminate cereal-based food products not only induces inflammation but also reduces bile acid absorption by a healthy human intestine. Bile acid malabsorption is commonly observed in individuals with an inflamed intestine. Here we studied the effects of DON on inflammation and primary bile acid transport using an in vitro model for an inflamed intestine. An inflamed intestinal in vitro model was established by co-culturing a Caco-2 cell-layer and LPS-pre-stimulated THP-1 macrophages in Transwells. We observed a decreased transport of 5 primary bile acids across inflamed co-cultures compared to healthy co-cultures but not of chenodeoxycholic acid. DON exposure further reduced the transport of the affected primary bile acids across the inflamed co-cultures. DON exposure also enhanced the secretion of pro-inflammatory cytokines in the inflamed co-cultures, while it did not increase the pro-inflammatory cytokines secretion from LPS-pre-stimulated THP-1 monocultures. Exposure of Caco-2 cell-layers to pro-inflammatory cytokines or THP-1 conditioned media partly mimicked the DON-induced effects of the co-culture model. Local activation of intestinal immune cells reinforces the direct pro-inflammatory effects of DON on intestinal epithelial cells. This affects the bile acid intestinal kinetics in an inflamed intestine.
ISSN:0963-9969
1873-7145
DOI:10.1016/j.foodres.2023.113323