Commensals Suppress Intestinal Epithelial Cell Retinoic Acid Synthesis to Regulate Interleukin-22 Activity and Prevent Microbial Dysbiosis

Grizotte-Lake, Mayara; Zhong, Guo; Duncan, Kellyanne; Kirkwood, Jay S.; Iyer, Namrata; Smolenski, Irina; Isoherranen, Nina; Vaishnava, Shipra

doi:10.1016/j.immuni.2018.11.018

Cited by 152 publications

(108 citation statements)

References 74 publications

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“…Interestingly, microbiota is directly regulating the availability of RA . Specifically, Clostridia species influence epithelial RA synthesis . A similar population of RORyt + ILC3s is required to induce cryptopatches and intestinal lymphoid follicles (ILFs) after birth .…”

Section: Ilc Development and Microbiota In Prenatal And Early Lifementioning

confidence: 99%

“…IFN‐y is key to fight the infection, and its expression has been reported to be shared by conventional NK cells as well as ILC3s during Salmonella infection in mice with T‐bet + CCR6 − RORγt + ILC3s being the strongest IFN‐y producers . In addition, intestinal IL‐22 expression triggered by intestinal epithelial cell‐derived RA affects antimicrobial peptide expression and bacterial load in S. typhimurium infection …”

Section: Microbiota – Ilc Axis During Infectious Diseasesmentioning

confidence: 99%

“…21 Specifically, Clostridia species influence epithelial RA synthesis. 22 [23][24][25][26] Lin À IL-7Ra + Flt3 À a 4 b 7 + progenitors present in the fetal liver can give rise to ILC3s that can be found in the intestinal lamina propria at the time of birth. 27,28 The population of RORyt-expressing ILCs in the lamina propria shortly after birth consists of mainly CCR6 + c-kit hi LTi cells, which seed the intestinal lamina propria during fetal development, and low numbers of CCR6 À c-kit lo ILC3s that expand strongly within the first 2-4 weeks of birth and that can acquire NK cell markers.…”

Section: Ilc Development and Microbiota In Prenatal And Early Lifementioning

confidence: 99%

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The interaction of intestinal microbiota and innate lymphoid cells in health and disease throughout life

Ganal‐Vonarburg

Duerr

2019

Immunology

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Summary Immunity is shaped by commensal microbiota. From early life onwards, microbes colonize mucosal surfaces of the body and thereby trigger the establishment of immune homeostasis and defense mechanisms. Recent evidence reveals that the family of innate lymphoid cells (ILCs), which are mainly located in mucosal tissues, are essential in the maintenance of barrier functions as well as in the initiation of an appropriate immune response upon pathogenic infection. In this review, we summarize recent insights on the functional interaction of microbiota and ILCs at steady‐state and throughout life. Furthermore, we will discuss the interplay of ILCs and the microbiota in mucosal infections focusing on intestinal immunity.

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Section: Ilc Development and Microbiota In Prenatal And Early Lifementioning

confidence: 99%

Section: Microbiota – Ilc Axis During Infectious Diseasesmentioning

confidence: 99%

Section: Ilc Development and Microbiota In Prenatal And Early Lifementioning

confidence: 99%

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The interaction of intestinal microbiota and innate lymphoid cells in health and disease throughout life

Ganal‐Vonarburg

Duerr

2019

Immunology

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“…However, IL-22 can promote colonization by other pathogens such as S. typhimurium by controlling growth of its niche competitor E. coli [112]. In a study by Grizotte-Lake et al [113] they found that commensal microbes suppress small intestinal epithelial expression of Rdh7, an enzyme required for retinoic acid (RA) production, resulting in reduced RA in SPF mice compared to germ-free mice. This effect was due to sporeforming Clostridia sp.…”

Section: Metabolic Interplay Between Host Microbiota and Pathogensmentioning

confidence: 99%

Metabolism at the centre of the host–microbe relationship

Maslowski

2019

Clinical and Experimental Immunology

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Summary Maintaining homoeostatic host–microbe interactions is vital for host immune function. The gut microbiota shapes the host immune system and the immune system reciprocally shapes and modifies the gut microbiota. However, our understanding of how these microbes are tolerated and how individual, or communities of, gut microbes influence host function is limited. This review will focus on metabolites as key mediators of this complex host–microbe relationship. It will look at the central role of epithelial metabolism in shaping the gut microbiota, how microbial metabolites influence the epithelium and the mucosal and peripheral immune system, and how the immune system shapes microbial composition and metabolism. Finally, this review will look at how metabolites are involved in cross‐talk between different members of the microbiota and their role during infections.

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“…Similarly, maternal retinoic acid (RA) induces fetal type 3 innate lymphoid cells and therefore secondary lymphoid organ development [91]. in the gut can modulate RA concentration by suppressing the expression of retinol dehydrogenase 7 (Rdh7) in intestinal epithelial cells [92]. in the gut can modulate RA concentration by suppressing the expression of retinol dehydrogenase 7 (Rdh7) in intestinal epithelial cells [92].…”

Section: Igg Mediates Bacterial Transfer In Uteromentioning

confidence: 99%

Influence of maternal microbiota during pregnancy on infant immunity

Nyangahu

Jaspan

2019

Clinical and Experimental Immunology

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Microbiota from various maternal sites, including the gut, vagina and breast milk, are known to influence colonization in infants. However, emerging evidence suggests that these sites may exert their influence prior to delivery, in turn influencing fetal immune development. The dogma of a sterile womb continues to be challenged. Regardless, there is convincing evidence that the composition of the maternal gut prior to delivery influences neonatal immunity. Therefore, while the presence and function of placental microbiome is not clear, there is consensus that the gut microbiota during pregnancy is a critical determinant of offspring health. Data supporting the notion of bacterial translocation from the maternal gut to extra-intestinal sites during pregnancy are emerging, and potentially explain the presence of bacteria in breast milk. Much evidence suggests that the maternal gut microbiota during pregnancy potentially determines the development of atopy and autoimmune phenotypes in offspring. Here, we highlight the role of the maternal microbiota prior to delivery on infant immunity and predisposition to diseases. Moreover, we discuss potential mechanisms that underlie this phenomenon.

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Commensals Suppress Intestinal Epithelial Cell Retinoic Acid Synthesis to Regulate Interleukin-22 Activity and Prevent Microbial Dysbiosis

Cited by 152 publications

References 74 publications

The interaction of intestinal microbiota and innate lymphoid cells in health and disease throughout life

The interaction of intestinal microbiota and innate lymphoid cells in health and disease throughout life

Metabolism at the centre of the host–microbe relationship

Influence of maternal microbiota during pregnancy on infant immunity

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