Kenta Kurihara scite author profile

Background:Intestinal epithelial cells (IECs) express low levels of TLR4 and are hyporesponsive to commensal bacteria. Results: TLR4 gene is methylated in IECs, and this process is dependent on commensal bacteria in the large intestine. Conclusion: Commensal bacteria control epigenetic modification of the host gene. Significance: This study shows a novel mechanism underlying the maintenance of intestinal symbiosis.

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α-Defensin 5 gene expression is regulated by gut microbial metabolites

Sugi

Takahashi

Kurihara

et al. 2017

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α-Defensin 5 is important to both maintenance of a gut microbiota and host immunity. While previous reports have shown that gut bacteria are able to upregulate α-defensin 5 through Toll-like receptor signaling, we demonstrate here that α-defensin 5 expression can also be regulated by microbial metabolites. Among these, lactate appeared to significantly suppress α-defensin 5 gene transcription. Actually, fractions of <3 kD compounds obtained from the ceca of SPF mice were suppressed α-defensin 5 gene transcription at specific concentrations. Our results also suggest that cecal content may include as yet unidentified factors that can enhance α-defensin 5 expression. Our data point to a novel function for the gut microbial metabolites in controlling the expression of antimicrobial peptides in the intestine.

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Post-Transcriptional Regulation of Toll-Interacting Protein in the Intestinal Epithelium

et al. 2016

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Immune responses against gut microbiota should be minimized to avoid unnecessary inflammation at mucosal surface. In this study, we analyzed the expression patterns of Toll-interacting protein (Tollip), an inhibitor of TLRs and IL-1 family cytokine-related intracellular signaling, in intestinal epithelial cells (IECs). Comparable mRNA expression was observed in murine small and large IECs (S-IECs and L-IECs). However, Tollip protein was only detected in L-IECs, but not in S-IECs. Similar results were obtained in germ-free mice, indicating that L-IEC-specific TOLLIP expression does not depend on bacterial colonization. Next, to understand the mechanisms underlying the post-transcriptional repression of Tollip, 3´-UTR-mediated translational regulation was evaluated. The region +1876/+2398 was responsible for the repression of Tollip expression. This region included the target sequence of miR-31. The inhibition of miR-31 restored the 3´-UTR-meditaed translational repression. In addition, miR-31 expression was significantly higher in S-IECs than in L-IECs, suggesting that miR-31 represses the translation of Tollip mRNA in S-IECs. Collectively, we conclude that the translation of Tollip is inhibited in S-IECs, at least in part, by miR-31 to yield L-IEC-specific high-level expression of the Tollip protein, which may contribute to the maintenance of intestinal homeostasis.

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Culture of carp hematopoietic cells; growth of granulocytic and lymphocytic cells

Moritomo

Kurihara

Suzuki

et al. 1997

Developmental & Comparative Immunology

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Kenta Kurihara

Epigenetic Control of the Host Gene by Commensal Bacteria in Large Intestinal Epithelial Cells

α-Defensin 5 gene expression is regulated by gut microbial metabolites

Post-Transcriptional Regulation of Toll-Interacting Protein in the Intestinal Epithelium

Culture of carp hematopoietic cells; growth of granulocytic and lymphocytic cells

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