Intestinal FoxO signaling is required to survive oral infection in Drosophila

Fink, Christine; Hoffmann, Jules A.; Knop, Mirjam; Li, Y.; Isermann, Kerstin; Roeder, Thomas

doi:10.1038/mi.2015.112

Cited by 60 publications

(58 citation statements)

References 53 publications

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“…Loss and gain-of-function studies in adult flies indicate that Dro can be activated by dFOXO in the midgut improving the immune response (unpublished data). This hypothesis is also supported by a recent study showing that dFOXO signaling leads to AMP induction and is required to survive oral infections [45]. Taken together our findings provide new insights into the network of metabolism, innate immunity, homeostasis and ageing, helping to understand the complex relationship of these fields of research.…”

Section: Discussionsupporting

confidence: 84%

Antimicrobial peptides extend lifespan in Drosophila

et al. 2017

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Antimicrobial peptides (AMPs) are important defense molecules of the innate immune system. High levels of AMPs are induced in response to infections to fight pathogens, whereas moderate levels induced by metabolic stress are thought to shape commensal microbial communities at barrier tissues. We expressed single AMPs in adult flies either ubiquitously or in the gut by using the inducible GeneSwitch system to tightly regulate AMP expression. We found that activation of single AMPs, including Drosocin, resulted in a significant extension of Drosophila lifespan. These animals showed reduced activity of immune pathways over lifetime, less intestinal regenerative processes, reduced stress response and a delayed loss of gut barrier integrity. Furthermore, intestinal Drosocin induction protected the animals against infections with the natural Drosophila pathogen Pseudomonas entomophila, whereas a germ-reduced environment prevented the lifespan extending effect of Drosocin. Our study provides new insights into the crosstalk of innate immunity, intestinal homeostasis and ageing.

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Section: Discussionsupporting

confidence: 84%

Antimicrobial peptides extend lifespan in Drosophila

et al. 2017

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“…FOXO regulates antimicrobial peptide expression in the fly, and in human cell culture assays (Becker et al, 2010;Fink et al, 2016). Our data support the hypothesis that a systemic decrease in insulin signaling results in FOXO-induced expression of antimicrobial peptide and improved immunity for the host.…”

Section: Discussionsupporting

confidence: 77%

The Immune Deficiency Pathway Regulates Metabolic Homeostasis inDrosophila

Davoodi

Galenza

Panteluk

et al. 2018

Preprint

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Immune and metabolic pathways collectively contribute to the containment of microbial invaders, and persistent activation of immune responses contribute to the development of severe metabolic disorders.To determine how a prolonged immune response impacts metabolism, we induced a constitutive inflammatory response in the Drosophila fat body, a key regulator of humoral immunity and metabolic homeostasis. We found that persistent immune activity replicated key features of a suppressed insulin pathway -delayed development, depleted fat reserves, and hyperglycemia. These observations led us to ask if the inhibition of insulin signaling improves host survival after infection. To test this, we challenged insulin pathway mutants with lethal doses of the enteric pathogen, Vibrio cholerae. We found that loss-of-function mutations in the insulin pathway extended viability and lowered bacterial loads, while gain-of-function mutations diminished viability and elevated bacterial loads. Combined, our results support a role for immune regulation of the insulin pathway in the survival of microbial challenges.

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“…Bim is known to be activated by a wide range of apoptotic stimuli at the transcriptional level in a FOXO3-dependent manner4748. FOXO ensures the survival of maximal numbers of naïve T cells33, modulates helper T-cell quiescence34, and prevents inflammation-induced apoptosis of neutrophils35 that contributes to intestinal resistance against infection and preservation of the microbiota58. FOXO plays a key role in T-cell homeostasis and regulation of inflammation and immunity596061.…”

Section: Discussionmentioning

confidence: 99%

Modulation of gut microbiota and delayed immunosenescence as a result of syringaresinol consumption in middle-aged mice

Cho

Kim

Lee

et al. 2016

Sci Rep

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Age-associated immunological dysfunction (immunosenescence) is closely linked to perturbation of the gut microbiota. Here, we investigated whether syringaresinol (SYR), a polyphenolic lignan, modulates immune aging and the gut microbiota associated with this effect in middle-aged mice. Compared with age-matched control mice, SYR treatment delayed immunosenescence by enhancing the numbers of total CD3+ T cells and naïve T cells. SYR treatment induced the expression of Bim as well as activation of FOXO3 in Foxp3+ regulatory T cells (Tregs). Furthermore, SYR treatment significantly enhanced the Firmicutes/Bacteroidetes ratio compared with that in age-matched controls by increasing beneficial bacteria, Lactobacillus and Bifidobacterium, while reducing the opportunistic pathogenic genus, Akkermansia. In addition, SYR treatment reduced the serum level of lipopolysaccharide-binding protein, an inflammatory marker, and enhanced humoral immunity against influenza vaccination to the level of young control mice. Taken together, these findings suggest that SYR may rejuvenate the immune system through modulation of gut integrity and microbiota diversity as well as composition in middle-aged mice, which may delay the immunosenescence associated with aging.

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Intestinal FoxO signaling is required to survive oral infection in Drosophila

Cited by 60 publications

References 53 publications

Antimicrobial peptides extend lifespan in Drosophila

Antimicrobial peptides extend lifespan in Drosophila

The Immune Deficiency Pathway Regulates Metabolic Homeostasis inDrosophila

Modulation of gut microbiota and delayed immunosenescence as a result of syringaresinol consumption in middle-aged mice

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