Takanori Ochi scite author profile

Macrophages (Mϕs) are known to be major producers of the anti-inflammatory cytokine interleukin-10 (IL-10) in the intestine, thus playing an important role in maintaining gastrointestinal homeostasis. Mϕs that reside in the small intestine (SI) have been previously shown to be regulated by dietary antigens, while colonic Mϕs are regulated by the microbiota. However, the role which resident Mϕs play in SI homeostasis has not yet been fully elucidated. Here, we show that SI Mϕs regulate the integrity of the epithelial barrier via secretion of IL-10. We used an animal model of non-steroidal anti-inflammatory drug (NSAID)-induced SI epithelial injury to show that IL-10 is mainly produced by MHCII+ CD64+ Ly6Clow Mϕs early in injury and that it is involved in the restoration of the epithelial barrier. We found that a lack of IL-10, particularly its secretion by Mϕs, compromised the recovery of SI epithelial barrier. IL-10 production by MHCII+ CD64+ Ly6Clow Mϕs in the SI is not regulated by the gut microbiota, hence depletion of the microbiota did not influence epithelial regeneration in the SI. Collectively, these results highlight the critical role IL-10-producing Mϕs play in recovery from intestinal epithelial injury induced by NSAID.

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Diet-dependent, microbiota-independent regulation of IL-10-producing lamina propria macrophages in the small intestine

Ochi

Yang

Kitamoto

et al. 2016

Sci Rep

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Intestinal resident macrophages (Mϕs) regulate gastrointestinal homeostasis via production of an anti-inflammatory cytokine interleukin (IL)-10. Although a constant replenishment by circulating monocytes is required to maintain the pool of resident Mϕs in the colonic mucosa, the homeostatic regulation of Mϕ in the small intestine (SI) remains unclear. Here, we demonstrate that direct stimulation by dietary amino acids regulates the homeostasis of intestinal Mϕs in the SI. Mice that received total parenteral nutrition (TPN), which deprives the animals of enteral nutrients, displayed a significant decrease of IL-10-producing Mϕs in the SI, whereas the IL-10-producing CD4+ T cells remained intact. Likewise, enteral nutrient deprivation selectively affected the monocyte-derived F4/80+ Mϕ population, but not non-monocytic precursor-derived CD103+ dendritic cells. Notably, in contrast to colonic Mϕs, the replenishment of SI Mϕs and their IL-10 production were not regulated by the gut microbiota. Rather, SI Mϕs were directly regulated by dietary amino acids. Collectively, our study highlights the diet-dependent, microbiota-independent regulation of IL-10-producing resident Mϕs in the SI.

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Comparison of robotic versus laparoscopic hepaticojejunostomy for choledochal cyst in children: a first report

et al. 2019

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Surgical management of recto-prostatic and recto-bulbar anorectal malformations

et al. 2016

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Takanori Ochi

IL-10 produced by macrophages regulates epithelial integrity in the small intestine

Diet-dependent, microbiota-independent regulation of IL-10-producing lamina propria macrophages in the small intestine

Comparison of robotic versus laparoscopic hepaticojejunostomy for choledochal cyst in children: a first report

Surgical management of recto-prostatic and recto-bulbar anorectal malformations

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