Haruka Tani scite author profile

Haruka Tani

3Publications

56Citation Statements Received

232Citation Statements Given

How they've been cited

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197

223

Affiliations

Osaka University, Japan Agency for Medical Research and Development

Publications

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Lysophosphatidylserines derived from microbiota in Crohn’s disease elicit pathological Th1 response

Otake

Kayama

Kishikawa

et al. 2022

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Microbiota alteration and IFN-γ–producing CD4+ T cell overactivation are implicated in Crohn’s disease (CD) pathogenesis. However, it remains unclear how dysbiosis enhances Th1 responses, leading to intestinal inflammation. Here, we identified key metabolites derived from dysbiotic microbiota that induce enhanced Th1 responses and exaggerate colitis in mouse models. Patients with CD showed elevated lysophosphatidylserine (LysoPS) concentration in their feces, accompanied by a higher relative abundance of microbiota possessing a gene encoding the phospholipid-hydrolyzing enzyme phospholipase A. LysoPS induced metabolic reprogramming, thereby eliciting aberrant effector responses in both human and mouse IFN-γ–producing CD4+ T cells. Administration of LysoPS into two mouse colitis models promoted large intestinal inflammation. LysoPS-induced aggravation of colitis was impaired in mice lacking P2ry10 and P2ry10b, and their CD4+ T cells were hyporesponsive to LysoPS. Thus, our findings elaborate on the mechanism by which metabolites elevated in patients with CD harboring dysbiotic microbiota promote Th1-mediated intestinal pathology.

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The ATP-hydrolyzing ectoenzyme E-NTPD8 attenuates colitis through modulation of P2X4 receptor–dependent metabolism in myeloid cells

Tani

Kusu

et al. 2021

Proc. Natl. Acad. Sci. U.S.A.

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Extracellular adenosine triphosphate (ATP) released by mucosal immune cells and by microbiota in the intestinal lumen elicits diverse immune responses that mediate the intestinal homeostasis via P2 purinergic receptors, while overactivation of ATP signaling leads to mucosal immune system disruption, which leads to pathogenesis of intestinal inflammation. In the small intestine, hydrolysis of luminal ATP by ectonucleoside triphosphate diphosphohydrolase (E-NTPD)7 in epithelial cells is essential for control of the number of T helper 17 (Th17) cells. However, the molecular mechanism by which microbiota-derived ATP in the colon is regulated remains poorly understood. Here, we show that E-NTPD8 is highly expressed in large-intestinal epithelial cells and hydrolyzes microbiota-derived luminal ATP. Compared with wild-type mice, Entpd8−/− mice develop more severe dextran sodium sulfate–induced colitis, which can be ameliorated by either the depletion of neutrophils and monocytes by injecting with anti–Gr-1 antibody or the introduction of P2rx4 deficiency into hematopoietic cells. An increased level of luminal ATP in the colon of Entpd8−/− mice promotes glycolysis in neutrophils through P2x4 receptor–dependent Ca2+ influx, which is linked to prolonged survival and elevated reactive oxygen species production in these cells. Thus, E-NTPD8 limits intestinal inflammation by controlling metabolic alteration toward glycolysis via the P2X4 receptor in myeloid cells.

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BATF2 prevents T-cell-mediated intestinal inflammation through regulation of the IL-23/IL-17 pathway

Kayama

Tani

Kitada

et al. 2019

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Inappropriate activation of the IL-23 signaling pathway causes chronic inflammation through the induction of immunopathological T h 17 cells in several tissues including the intestine, whereas adequate T h 17 responses are essential for host defense against harmful organisms. In the intestinal lamina propria, IL-23 is primarily produced by innate myeloid cells including dendritic cells (DCs) and macrophages (Mϕs). However, the molecular mechanisms underlying the regulation of IL-23 production by these cells remains poorly understood. In this study, we demonstrated that BATF2 regulates intestinal homeostasis by inhibiting IL-23-driven T-cell responses. Batf2 was highly expressed in intestinal innate myeloid subsets, such as monocytes, CD11b + CD64 + Mϕs and CD103 + DCs. Batf2 −/− mice spontaneously developed colitis and ileitis with altered microbiota composition. In this context, IL-23, but not TNF-α and IL-10, was produced in high quantities by intestinal CD11b + CD64 + Mϕs from Batf2 −/− mice compared with wild-type mice. Moreover, increased numbers of IFN-γ + , IL-17 + and IFN-γ + IL-17 + CD4 + T cells, but not IL-10 + CD4 + T cells, accumulated in the colons and small intestines of Batf2 −/− mice. In addition, RORγt-expressing innate lymphoid cells were increased in Batf2 −/− mice. Batf2 −/− Rag2 −/− mice showed a reduction in intestinal inflammation present in Batf2 −/− mice. Furthermore, the high numbers of intestinal IL-17 + and IFN-γ + IL-17 + CD4 + T cells were markedly reduced in Batf2 −/− mice when introducing Il23a deficiency, which was associated with the abrogation of intestinal inflammation. These results indicated that BATF2 in innate myeloid cells is a key molecule for the suppression of IL-23/IL-17 pathway-mediated adaptive intestinal pathology.

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Haruka Tani

Lysophosphatidylserines derived from microbiota in Crohn’s disease elicit pathological Th1 response

The ATP-hydrolyzing ectoenzyme E-NTPD8 attenuates colitis through modulation of P2X4 receptor–dependent metabolism in myeloid cells

BATF2 prevents T-cell-mediated intestinal inflammation through regulation of the IL-23/IL-17 pathway

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