Caroline Sommereyns scite author profile

Interferons (IFN) exert antiviral, immunomodulatory and cytostatic activities. IFN-α/β (type I IFN) and IFN-λ (type III IFN) bind distinct receptors, but regulate similar sets of genes and exhibit strikingly similar biological activities. We analyzed to what extent the IFN-α/β and IFN-λ systems overlap in vivo in terms of expression and response. We observed a certain degree of tissue specificity in the production of IFN-λ. In the brain, IFN-α/β was readily produced after infection with various RNA viruses, whereas expression of IFN-λ was low in this organ. In the liver, virus infection induced the expression of both IFN-α/β and IFN-λ genes. Plasmid electrotransfer-mediated in vivo expression of individual IFN genes allowed the tissue and cell specificities of the responses to systemic IFN-α/β and IFN-λ to be compared. The response to IFN-λ correlated with expression of the α subunit of the IFN-λ receptor (IL-28Rα). The IFN-λ response was prominent in the stomach, intestine and lungs, but very low in the central nervous system and spleen. At the cellular level, the response to IFN-λ in kidney and brain was restricted to epithelial cells. In contrast, the response to IFN-α/β was observed in various cell types in these organs, and was most prominent in endothelial cells. Thus, the IFN-λ system probably evolved to specifically protect epithelia. IFN-λ might contribute to the prevention of viral invasion through skin and mucosal surfaces.

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Role of the Interleukin (IL)-28 Receptor Tyrosine Residues for Antiviral and Antiproliferative Activity of IL-29/Interferon-λ1

Dumoutier

Tounsi

Michiels

et al. 2004

Journal of Biological Chemistry

279

232

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Interferon (IFN)-1, -2, and -3 are the latest members of the class II cytokine family and were shown to have antiviral activity. Their receptor is composed of two chains, interleukin-28R/likely interleukin or cytokine or receptor 2 (IL-28R/LICR2) and IL-10R␤, and mediates the tyrosine phosphorylation of STAT1, STAT2, STAT3, and STAT5. Here, we show that activation of this receptor by IFN-1 can also inhibit cell proliferation and induce STAT4 phosphorylation, further extending functional similarities with type I IFNs. We used IL-28R/ LICR2-mutated receptors to identify the tyrosines required for STAT activation, as well as antiproliferative and antiviral activities. We found that IFN-1-induced STAT2 tyrosine phosphorylation is mediated through tyrosines 343 and 517 of the receptor, which showed some similarities with tyrosines from type I IFN receptors involved in STAT2 activation. These two tyrosines were also responsible for antiviral and antiproliferative activities of IFN-1. By contrast, STAT4 phosphorylation (and to some extent STAT3 activation) was independent from IL-28R/LICR2 tyrosine residues. Taken together, these observations extend the functional similarities between IFN-s and type I IFNs and shed some new light on the mechanisms of activation of STAT2 and STAT4 by these cytokines.The interleukin-28 receptor (IL-28R, also named LICR2 and CRF2-12) 1 is a member of the class II cytokine receptor family (CRF2) (1-3), which includes receptors for type I and type II IFNs (IFNAR1, IFNAR2, IFNGR1, and IFNGR2), tissue factor, and receptors for IL-10-related cytokines: IL-10R␣, IL-22R/ CRF2-9, IL-10R␤/CRF2-4, IL-20R␣/CRF2-8, IL-20R␤/CRF2-11, and IL-28R/LICR2 (4 -7). When IL-28R associates with IL-10R␤, it creates a high affinity binding complex for IFN-1, -2, and -3 (also called IL-29, IL-28a, and IL-28b) (2, 3). These cytokines share limited sequence similarity with type I IFNs. Like type I IFNs, they are expressed by human peripheral blood mononuclear cells and dendritic cells upon infection with viruses or stimulation with poly(I:C) (2, 3, 8).Although they use distinct receptor chains, which have no detectable homology in their intra-cytoplasmic domain, type I IFNs and IFN-s activate similar signal transduction pathways. Chimeric receptors containing the intracellular portion of IL-28R/LICR2 could mediate JAK1 (Janus kinase 1) activation, as well as tyrosine phosphorylation of STAT factors (1, 2), including STAT2, whose activation was considered to be a specific characteristic of the type I IFN response (9, 10).Most importantly, IFN-1, -2, and -3 protected several cell lines against viral infection and up-regulated major histocompatibility complex class I antigen expression (2, 3). Receptors for type I IFNs are composed of two chains, IFNAR1 and IFNAR2, in which 3 tyrosines seem to be essential to recruit STAT2: Tyr 466 in IFNAR1, and Tyr 337 and Tyr 512 in IFNAR2 (11, 12). Here, we introduced point mutations into the cytoplasmic domain of IL-28R/LICR2 to determine which tyrosines are involved in different ...

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Type I interferon response in the central nervous system

et al. 2007

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NADPH oxidase activation by hyperglycaemia in cardiomyocytes is independent of glucose metabolism but requires SGLT1

Balteau

Tajeddine

Meester

et al. 2011

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IL-9 Promotes IL-13-Dependent Paneth Cell Hyperplasia and Up-Regulation of Innate Immunity Mediators in Intestinal Mucosa

Steenwinckel

Louahed²,

Lemaire³

et al. 2009

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IL-9 contributes to lung inflammatory processes such as asthma, by promoting mast cell differentiation, B cell activation, eosinophilia, and mucus production by lung epithelial cells. The observation that IL-9 overexpressing mice show increased mast cell numbers in the intestinal mucosa suggests that this cytokine might also play a role in intestinal inflammation. In colons from IL-9 transgenic mice, the expression of Muc2, a major intestinal mucin gene, was up-regulated, together with that of CLCA3 chloride channel and resistin like α, which are goblet cell-associated genes. Additional IL-9 up-regulated genes were identified and included innate immunity genes such as angiogenin 4 and the PLA2g2a phospholipase A2, which are typical Paneth cell markers. Histochemical staining of Paneth cells by phloxine/tartrazine showed that IL-9 induces Paneth cell hyperplasia in Lieberkühn glands of the small intestine, and in the colonic mucosa, where this cell type is normally absent. Expression of Paneth cell markers, including angiogenin 4, PLA2g2a, and cryptdins, was induced in the colon of wild-type mice after two to four daily administrations of IL-9. By crossing IL-9 transgenic mice with IL-13−/− mice, or by injecting IL-9 into IL-4R−/− mice, we showed that IL-13 was required for the up-regulation of these Paneth cell-specific genes by IL-9. Taken together, our data indicate that Paneth cell hyperplasia and expression of their various antimicrobial products contribute to the immune response driven by TH2 cytokines, such as IL-9 and IL-13 in the intestinal mucosa.

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