Epidermal Expression and Regulation of Interleukin-33 during Homeostasis and Inflammation: Strong Species Differences

Sundnes, Olav; Pietka, Wojciech; Loos, Tamara; Sponheim, Jon; Rankin, Andrew L.; Pflanz, Stefan; Bertelsen, Vibeke; Sitek, Jan Cezary; Hol, Johanna; Haraldsen, Guttorm; Khnykin, Denis

doi:10.1038/jid.2015.85

Cited by 55 publications

(68 citation statements)

References 36 publications

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“…IL-33 expression in CP in human has recently been described by Malcolm et al in gingival epithelial cells and our results confirmed this observation [20]. This is of particular interest because differences of IL-33 expression in skin have been reported between species [35]. Notably in human and porcine keratinocytes, IL-33 expression is low but rapidly induced after skin wounding whereas it is the opposite in mice.…”

Section: Discussionsupporting

confidence: 90%

“…We also recorded such increase 24 hours after Pg infection of human epithelial cells. However, as we also recorded an increased IL-33 expression in vivo independently of Pg infection, it is tempting to speculate that the ligature apposition is an inflammatory stimulus sufficient to induce the increase of IL-33 expression in gingival epithelial cells, directly or throughout other pro-inflammatory cytokines such as TNF-α or IFN-γ [35, 37]. Consistently, we have also observed an IL-33 expression in Sham animals subjected to a slight incision suggesting that this mechanical stimulus may trigger the production of IL-33 in gingival epithelial cell and that Pg may be not the major factor needed for IL-33 expression.…”

Section: Discussionmentioning

confidence: 99%

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Interleukin-33 and RANK-L Interplay in the Alveolar Bone Loss Associated to Periodontitis

Lapérine

Cloître

Caillon³

et al. 2016

PLoS ONE

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IntroductionChronic Periodontitis (CP) is an inflammatory disease of bacterial origin that results in alveolar bone destruction. Porphyromonas gingivalis (Pg), one of the main periopathogens, initiates an inflammatory cascade by host immune cells thereby increasing recruitment and activity of osteoclasts, the bone resorbing cells, through enhanced production of the crucial osteoclastogenic factor, RANK-L. Antibodies directed against some cytokines (IL-1β, IL-6 and TNF-α) failed to exhibit convincing therapeutic effect in CP. It has been suggested that IL-33, could be of interest in CP.Objectivethe present study aims to analyze whether and how IL-33 and RANK-L and/or their interplay are involved in the bone destruction associated to CP.Material and MethodsmRNAs and protein expressions of IL-33 and RANK-L were analyzed in healthy and CP human gingival samples by immunohistochemistry (IHC) and RT-qPCR. Murine experimental periodontitis (EP) was induced using Pg infected ligature and Pg free ligature around the first maxillary molar. Alveolar bone loss was recorded by μCT. Mouse gingival explants were stimulated for 24 hours with IL-33 and RANK-L mRNA expression investigated by RT-qPCR. Human oral epithelial cells were infected by Pg for 6, 12; 24 hours and IL-33 and RANK-L mRNA expressions were analyzed by RT-qPCR.ResultsIL-33 is overexpressed in gingival epithelial cells in human affected by CP as in the murine EP. In human as in murine gingival cells, RANK-L was independently induced by Pg and IL-33. We also showed that the Pg-dependent RANK-L expression in gingival epithelial cells occured earlier than that of IL-33.ConclusionOur results evidence that IL-33 overexpression in gingival epithelial cells is associated with CP and may trigger RANK-L expression in addition to a direct effect of Pg. Finally, IL-33 may act as an extracellular alarmin (danger signal) showing proinflammatory properties in CP perpetuating bone resorption induced by Pg infection.

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Section: Discussionsupporting

confidence: 90%

Section: Discussionmentioning

confidence: 99%

Interleukin-33 and RANK-L Interplay in the Alveolar Bone Loss Associated to Periodontitis

Lapérine

Cloître

Caillon³

et al. 2016

PLoS ONE

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“…IL-33 expression in endothelial cells in vitro has been linked to cellular quiescence and confluence, and may require Notch signals (Küchler et al, 2008; Sundlisaeter et al, 2012). Human and mouse share constitutive IL-33 expression at epithelial surfaces, including in skin, stomach, intestine, salivary gland, vagina and lung, where expression is particularly high in alveolar type 2 cells (Mohapatra et al, 2015; Moussion et al, 2008; Pastorelli et al, 2010; Schmitz et al, 2005); species-specific differences may exist (Sundnes et al, 2015). This epithelial expression pattern partially overlaps with other cytokines that target ILC2s, including TSLP and IL-25, suggesting potentially shared functions (Bulek et al, 2010; Mohapatra et al, 2015).…”

Section: Sources and Production Of Il-33mentioning

confidence: 99%

Interleukin-33 in Tissue Homeostasis, Injury, and Inflammation

2015

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Summary Interleukin-33 (IL-33) is a nuclear-associated cytokine of the IL-1 family originally described as a potent inducer of allergic type 2 immunity. IL-33 signals via the receptor ST2, which is highly expressed on group 2 innate lymphoid cells (ILC2s) and T helper 2 (Th2) cells, thus underpinning its association with helminth infection and allergic pathology. Recent studies have revealed ST2 expression on subsets of regulatory T cells, and for a role for IL-33 in tissue homeostasis and repair that suggests previously unrecognized interactions within these cellular networks. IL-33 can participate in pathologic fibrotic reactions, or, in the setting of microbial invasion, can cooperate with inflammatory cytokines to promote responses by cytotoxic NK cells, Th1 cells and CD8+ T cells. Here, we highlight the regulation and function of IL-33 and ST2, and review their roles in homeostasis, damage and inflammation, suggesting a conceptual framework for future studies.

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“…mast cells, macrophages and DCs. IL-33 can be induced by a variety of immune stimuli, for example proinflammatory TLR ligands, cytokines and immune complexes [7] [8]. Different IL-33 splice variants have been observed in human tissues.…”

Section: Il-33mentioning

confidence: 99%

“…Although it seems from these reports that IL-33 signalling at the site of cutaneous damage may facilitate the transition of macrophages from a pro-inflammatory to a prorepair phenotype thereby promoting dermal wound healing, the underlying mechanism for IL-33 in skin wound healing remains unclear. Given the interesting observation that IL-33 expression both varies at a basal level and is also differentially regulated between mouse and human keratinocytes [8], it is clear that more detailed studies need to be performed on human tissues and human cell lines to fully elucidate the role of IL-33 in cutaneous wound healing in humans.…”

Section: Il-33 In Cutaneous Wound Healingmentioning

confidence: 99%

Wounds that heal and wounds that don’t − The role of the IL-33/ST2 pathway in tissue repair and tumorigenesis

Millar

O'Donnell

McInnes

et al. 2017

Seminars in Cell & Developmental Biology

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Epidermal Expression and Regulation of Interleukin-33 during Homeostasis and Inflammation: Strong Species Differences

Cited by 55 publications

References 36 publications

Interleukin-33 and RANK-L Interplay in the Alveolar Bone Loss Associated to Periodontitis

Interleukin-33 and RANK-L Interplay in the Alveolar Bone Loss Associated to Periodontitis

Interleukin-33 in Tissue Homeostasis, Injury, and Inflammation

Wounds that heal and wounds that don’t − The role of the IL-33/ST2 pathway in tissue repair and tumorigenesis

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