AI Article Synopsis
- In a healthy colon, intestinal epithelial cells (IEC) create a barrier to protect against immune reactions while maintaining tolerance to nonharmful gut antigens like commensal bacteria.
- In inflammatory bowel disease (IBD), this barrier is compromised, leading to excessive immune responses, prompting research into the gene expression of IEC during IBD.
- The study identified LY6 superfamily genes as significantly up-regulated in inflamed IEC, suggesting that targeting these molecules could help reduce chemokine production and inflammation associated with IBD.
Article Abstract
In the healthy colon, intestinal epithelial cells (IEC) form a physical barrier separating the myriad of gut Ags from the cells of the immune system. Simultaneously, IEC use several mechanisms to actively maintain immunologic tolerance to nonpathogenic Ags, including commensal bacteria. However, during inflammatory bowel disease (IBD), the line of defense provided by IEC is breached, resulting in uncontrolled immune responses. As IEC are a principal mediator of immune responses in the gut, we were interested in discerning the gene expression pattern of IEC during development and progression of IBD. Laser capture microdissection and microarray analysis were combined to identify the LY6 superfamily as strongly up-regulated genes in inflamed IEC of the colon in two models of murine colitis. Surface expression of LY6A and LY6C on IEC is induced by several cytokines present within the colitic gut, including IL-22 and IFN-gamma. Furthermore, cross-linking of LY6C results in production of a number of chemokines which are known to be involved in the immunopathogenesis of IBD. Increased chemokine production was cholesterol dependent, suggesting a role for lipid raft structures in the mechanism. As such, LY6 molecules represent novel targets to down-regulate chemokine expression in the colon and limit subsequent inflammation associated with IBD.
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| http://dx.doi.org/10.4049/jimmunol.180.6.3874 | DOI Listing |
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