Dectin-2 Recognition of α-Mannans and Induction of Th17 Cell Differentiation Is Essential for Host Defense against Candida albicans

Saijo, Shinobu; Ikeda, Satoshi; Yamabe, Keiko; Kakuta, Shigeru; Ishigame, Harumichi; Akitsu, Aoi; Fujikado, Noriyuki; Kusaka, Toshimasa; Kubo, Sachiko; Chung, Soo Hyun; Komatsu, Ryohei; Miura, Noriko N.; Adachi, Yoshiyuki; Ohno, Naohito; Shibuya, Kazutoshi; Yamamoto, Noriaki; Kawakami, Kazuyoshi; Yamasaki, Satoshi; Saito, Takashi; Akira, Shizuo; Iwakura, Yoichiro

doi:10.1016/j.immuni.2010.05.001

Cited by 666 publications

(733 citation statements)

References 45 publications

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“…Recently, Dectin-2 [36,37] has been shown to also be important for host response to C. albicans. Nevertheless, our finding sheds light on the cooperation of different and/or similar types of PRRs in innate responses.…”

Section: Discussionmentioning

confidence: 99%

C‐type lectin SIGNR1 enhances cellular oxidative burst response against C. albicans in cooperation with Dectin‐1

et al. 2011

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We investigated the role of SIGNR1 in the recognition of Candida albicans and the subsequent cellular oxidative burst response. Soluble SIGNR1 (sSIGNR1) tetramer bound equally to zymosan and both heat-killed (HK) and live C. albicans in an EDTA-sensitive manner, whereas sDectin-1 tetramer predominantly bound to zymosan and HK-microbes in an EDTA-independent manner. In cellular response, enhanced oxidative burst was observed in RAW264.7 cells expressing SIGNR1 (RAW-SIGNR1) compared with RAW-control cells upon stimulation with HK-C. albicans and zymosan. This response was independent of TLR2 and the cytosolic portion of SIGNR1 but dependent on the recognition by SIGNR1 via carbohydrate recognition domain. Antagonistic laminarin and anti-Dectin-1 mAb cooperatively reduced the response with mannan and anti-SIGNR1 mAb, respectively, although they had no effect by themselves. Moreover, oxidative response and bactericidal activity largely relied on Syk-mediated signaling. RAW-SIGNR1 cells not only captured microbes more efficiently but also showed higher responses than RAW-control cells. Similar enhanced responses were observed in SIGNR-1-expressing resident peritoneal M/. Interestingly, Dectin-1 was recruited to the phagosomal membrane upon the stimulation and physically associated with SIGNR1. These results suggest that SIGNR1 plays a significant role in inducing oxidative response to C. albicans by Syk-dependent signaling, possibly through Dectin-1.Key words: C. albicans . Dectin-1 . Macrophages . SIGNR1 . TLR2 IntroductionInnate immunity is a crucial host defense system that eliminates pathogens as they initiate an infection and leads to the subsequent initiation of the adaptive immune response [1]. The system consists of germline-encoded genes, i.e. toll-like receptors (TLRs) [2] [8][9][10][11][12]. Microbe-mediated stimulation of Dectin-1 results in cellular oxidative burst and cytokine production through its ITAM and the Syk kinase pathway [13,14]. In addition, Dectin-1 has been shown to function collaboratively with TLR2 to stimulate cytokine production [15] and Th17/Treg induction [16].hDC-SIGN recognizes mannose and fucose moieties in the surface of a variety of microbes and viruses, such as Mycobacteria, Leishmania, Salmonella, Candida species, HIV, HCV, dengue virus, CMV, Ebola virus and Sindbis virus (refer to [17]). However, pathogens, i.e. HIV and HCV, have also found ways to subvert and use hDC-SIGN to their advantage [18,19]. Mycobacterium tuberculosis and HIV also target hDC-SIGN in order to upregulate DC production of the immunosuppressive cytokine IL-10 through Raf-1 kinase activation, which induces acetylation of the NF-kB p65 subunit in the presence of co-signaling from TLR4 [20].Mice have eight hDC-SIGN homologues [21,22]. One of these homologues, SIGNR1, has been shown to be expressed on particular Mf subsets in the marginal zone of the spleen, medulla of the lymph nodes and the peritoneal cavity [23][24][25] and to possess mannosebinding activities like hDC-SIGN. SIGNR1 recognizes not only vari...

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Section: Discussionmentioning

confidence: 99%

C‐type lectin SIGNR1 enhances cellular oxidative burst response against C. albicans in cooperation with Dectin‐1

et al. 2011

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“…Interleukin‐17 plays protective roles against bacterial and fungal infection by recruiting neutrophils, activating T cells and inducing antimicrobial peptides and inflammatory cytokines 1, 4, 578 or Mycobacterium bovis BCG infection 79.…”

Section: γδ17 Cells In Pathogen Clearancementioning

confidence: 99%

“…It plays a crucial role in the host defence against bacterial and fungal infection by inducing pro‐inflammatory cytokines and chemokines, recruiting neutrophils, and activating T cells and B cells 1, 2. Mice deficient for IL‐17RA are highly susceptible to Klebsiella pneumoniae 3 and IL‐17‐deficient mice are susceptible to bacterial and fungal infection 4, 5. Interleukin‐17 is also implicated in various inflammatory/autoimmune disease models such as experimental autoimmune encephalomyelitis (EAE), arthritis in IL‐1 receptor antagonist‐deficient (Il1rn –/– ) mice and imiquimod‐induced psoriatic dermatitis in mice 6, 7, 8, 9, 10.…”

Section: Introductionmentioning

confidence: 99%

Interleukin‐17‐producing γδ T (γδ17) cells in inflammatory diseases

Akitsu

Iwakura

2018

Immunology

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SummaryInterleukin‐17 (IL‐17) is a pro‐inflammatory cytokine and is involved in the development of many diseases. Recent studies have revealed that IL‐17‐producing γδ T cells (γδ17 cells) in addition to IL‐17‐producing CD4+ T cells [T helper type 17 (Th17) cells] are often the main producers of IL‐17 in mouse models of inflammatory diseases. γδ T cells are functionally committed during intra‐thymic differentiation. γδ thymocytes capable of producing IL‐17, which express the transcription factor retinoic‐acid‐receptor‐related orphan receptor γt and the signature cytokine receptor IL‐23R, leave the thymus, and produce IL‐17 rapidly by the stimulation with IL‐1β and IL‐23 in the periphery. Therefore, γδ17 cells play important roles in the early phase of host defence against pathogens and in inflammatory diseases. γδ T cells that can produce IL‐17 are also increased in the skin of patients with psoriasis and in peripheral blood of patients with ankylosing sclerosis. Indeed, the therapy targeting IL‐17 has been approved or is in clinical trials, and proved to be very efficient to treat psoriasis, psoriatic arthritis and ankylosing sclerosis. In this review, we discuss recent knowledge about the pathophysiological function of γδ17 cells in infection and inflammatory diseases and therapeutic advances targeting IL‐17.

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“…138,140,141 Fungal recognition by Dectin-2 can induce the production of numerous cytokines, including TNF-a, IL-1Ra, IL-2, IL-10, IL-6, IL-1b, IL-12 and IL-23, and possibly cysteinyl leukotrienes. 49,51,142,143 Similarly, fungal recognition by Mincle induces the production of cytokines, including MIP-2, KC, IL-10 and TNF-a. 107,114 PRRs of dendritic cells (DCs)…”

Section: Prrs Of Neutrophils and Monocytes/macrophagesmentioning

confidence: 99%

“…[48][49][50] Of note, in the Syk signaling pathway, CARD9 plays a crucial role to induce cytokine induction. [51][52][53] Raf-1 is another kinase involved in CLRs signal transduction, which can be activated by Dectin-1 or DC-SIGN. 54,55 Interestingly, most PRRs, if not all, activate the transcription factor NF-kB or IRF3/7 to induce immune responses.…”

mentioning

confidence: 99%

The role of pattern recognition receptors in the innate recognition ofCandida albicans

Zheng

Wang

et al. 2015

Virulence

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Dectin-2 Recognition of α-Mannans and Induction of Th17 Cell Differentiation Is Essential for Host Defense against Candida albicans

Cited by 666 publications

References 45 publications

C‐type lectin SIGNR1 enhances cellular oxidative burst response against C. albicans in cooperation with Dectin‐1

C‐type lectin SIGNR1 enhances cellular oxidative burst response against C. albicans in cooperation with Dectin‐1

Interleukin‐17‐producing γδ T (γδ17) cells in inflammatory diseases

The role of pattern recognition receptors in the innate recognition ofCandida albicans

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