Paul J. Coffer scite author profile

Intestinal microbes provide multicellular hosts with nutrients and confer resistance to infection. The delicate balance between pro- and anti-inflammatory mechanisms, essential for gut immune homeostasis, is affected by the composition of the commensal microbial community. Regulatory T (Treg) cells expressing transcription factor Foxp3 play a key role in limiting inflammatory responses in the intestine1. Although specific members of the commensal microbial community have been found to potentiate the generation of anti-inflammatory Treg or pro-inflammatory Th17 cells2-6, the molecular cues driving this process remain elusive. Considering the vital metabolic function afforded by commensal microorganisms, we hypothesized that their metabolic by-products are sensed by cells of the immune system and affect the balance between pro- and anti-inflammatory cells. We found that a short-chain fatty acid (SCFA), butyrate, produced by commensal microorganisms during starch fermentation, facilitated extrathymic generation of Treg cells. A boost in Treg cell numbers upon provision of butyrate was due to potentiation of extrathymic differentiation of Treg cells as the observed phenomenon was dependent upon intronic enhancer CNS1, essential for extrathymic, but dispensable for thymic Treg cell differentiation1, 7. In addition to butyrate, de novo Treg cell generation in the periphery was potentiated by propionate, another SCFA of microbial origin capable of HDAC inhibition, but not acetate, lacking this activity. Our results suggest that bacterial metabolites mediate communication between the commensal microbiota and the immune system, affecting the balance between pro- and anti-inflammatory mechanisms.

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Protein kinase B (c-Akt) in phosphatidylinositol-3-OH kinase signal transduction

Burgering

Coffer

1995

Nature

1,947

1,415

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A serine/threonine kinase, named protein kinase B (PKB) for its sequence homology to both protein kinase A and C, has previously been isolated. PKB, which is identical to the kinase Rac, was later found to be the cellular homologue of the transforming v-Akt. Here we show that PKB is activated by stimuli such as insulin, platelet-derived growth factor (PDGF), epidermal growth factor (EGF) and basic fibroblast growth factor (bFGF). Activation of PKB was inhibited by the phosphatidylinositol-3-OH kinase (PI(3)K) inhibitor wortmannin and by coexpression of a dominant-negative mutant of PI(3)K. PDGF receptor mutants that lack detectable associated PI(3)K activity also fail to induce PKB activation, PKB kinase activity is correlated with phosphorylation of PKB on serine. Finally, we show that a constructed Gag-PKB fusion protein, homologous to the v-akt oncogene, displays significantly increased ligand-independent kinase activity. Furthermore, this activity is sufficient to activate the p70 S6-kinase (p70S6K). These results suggest a role for PKB in PI(3)K-mediated signal transduction.

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Forkhead transcription factor FOXO3a protects quiescent cells from oxidative stress

Kops

Dansen

Polderman

et al. 2002

Nature

1,421

1,094

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RNAi Double-stranded RNAs (dsRNAs) were made using gld-2 cDNAs (pJK830, exons 2-8 or pJK831, exons 16-18) as templates. Young adults were either injected with 2 mg ml 21 gld-2 dsRNA or soaked in 10 ml of 2 mg ml 21 gld-2 dsRNA for 12 h at 20 8C or mock-treated by injection with M9 buffer. Embryos were collected at defined intervals after treatment and processed together. Poly(A) polymerase assayProteins were in vitro translated using the TNT coupled transcription-translation system (Promega), and assayed using buffer conditions essentially as described 26 . For scintillation counting, poly(A) (Roche) was used as substrate. For gel assays, we used RNA oligo, C 35 A 10 (Dharmacon), a 45-nucleotide and supplemental 1 mM MgCl 2 . Products were analysed on 12% sequencing gels.

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Paul J. Coffer

Metabolites produced by commensal bacteria promote peripheral regulatory T-cell generation

Protein kinase B (c-Akt) in phosphatidylinositol-3-OH kinase signal transduction

Forkhead transcription factor FOXO3a protects quiescent cells from oxidative stress

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