Satoshi Kaneto scite author profile

Although many of the biological features of microfold cells (M cells) have been known for many years, the molecular mechanisms of M-cell development and antigen recognition have remained unclear. Here, we report that Umod is a novel M-cell-specific gene, the translation products of which might contribute to the uptake function of M cells. Transcription factor Spi-B was also specifically expressed in M cells among non-hematopoietic lineages. Spi-B-deficient mice showed reduced expression of most, but not all, other M-cell-specific genes and M-cell surface markers. Whereas uptake of Salmonella Typhimurium via M cells was obviously reduced in Spi-B-deficient mice, the abundance of intratissue cohabiting bacteria was comparable between wild-type and Spi-B-deficient mice. These data indicate that there is a small M-cell population with developmental regulation that is Spi-B independent; however, Spi-B is probably a candidate master regulator of M-cell functional maturation and development by another pathway.

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Eosinophil depletion suppresses radiation-induced small intestinal fibrosis

Takemura

Kurashima

Mori

et al. 2018

Sci. Transl. Med.

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Radiation-induced intestinal fibrosis (RIF) is a serious complication after abdominal radiotherapy for pelvic tumor or peritoneal metastasis. Herein, we show that RIF is mediated by eosinophil interactions with α-smooth muscle actin-positive (α-SMA) stromal cells. Abdominal irradiation caused RIF especially in the submucosa (SM) of the small intestine, which was associated with the excessive accumulation of eosinophils in both human and mouse. Eosinophil-deficient mice showed markedly ameliorated RIF, suggesting the importance of eosinophils. After abdominal irradiation, chronic crypt cell death caused elevation of extracellular adenosine triphosphate, which in turn activated expression of C-C motif chemokine 11 (CCL11) by pericryptal α-SMA cells in the SM to attract eosinophils in mice. Inhibition of C-C chemokine receptor 3 (CCR3) by genetic deficiency or neutralizing antibody (Ab) treatment suppressed eosinophil accumulation in the SM after irradiation in mice, suggesting a critical role of the CCL11/CCR3 axis in the eosinophil recruitment. Activated α-SMA cells also expressed granulocyte-macrophage colony-stimulating factor (GM-CSF) to activate eosinophils. Transforming growth factor-β1 from GM-CSF-stimulated eosinophils promoted collagen expression by α-SMA cells. In translational studies, treatment with a newly developed interleukin-5 receptor α-targeting Ab, analogous to the human agent benralizumab, depleted intestinal eosinophils and suppressed RIF in mice. Collectively, we identified eosinophils as a crucial factor in the pathogenesis of RIF and showed potential therapeutic strategies for RIF by targeting eosinophils.

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Allograft inflammatory factor 1 is a regulator of transcytosis in M cells

et al. 2017

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M cells in follicle-associated epithelium (FAE) are specialized antigen-sampling cells that take up intestinal luminal antigens. Transcription factor Spi-B regulates M-cell maturation, but the molecules that promote transcytosis within M cells are not fully identified. Here we show that mouse allograft inflammatory factor 1 (Aif1) is expressed by M cells and contributes to M-cell transcytosis. FAE in Aif1−/− mice has suppressed uptake of particles and commensal bacteria, compared with wild-type mice. Translocation of Yersinia enterocolitica, but not of Salmonella enterica serovar Typhimurium, leading to the generation of antigen-specific IgA antibodies, is also diminished in Aif1-deficient mice. Although β1 integrin, which acts as a receptor for Y. enterocolitica via invasin protein, is expressed on the apical surface membranes of M cells, its active form is rarely found in Aif1−/− mice. These findings show that Aif1 is important for bacterial and particle transcytosis in M cells.

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Regeneration of amphioxus oral cirri and its skeletal rods: implications for the origin of the vertebrate skeleton

Kaneto

Wada

2011

J Exp Zool Pt B

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The oral cirri of amphioxus function as the first filter during feeding by eliminating unwanted large or noxious particulates. In this study, we were able to regenerate cirri following artificial amputation. This is the first firm observation of regeneration in amphioxus. Using this regeneration system, we studied skeletogenesis of the cellular skeleton of amphioxus oral cirri. During regeneration, the skeletal cells showed expression of fibrillar collagen and SoxE genes. These observations suggest that an evolutionarily conserved genetic regulatory system is involved in amphioxus cirrus and vertebrate cartilage skeletogenesis. In addition, Runx and SPARC/osteonectin expression were observed in regenerating cirral skeletal cells, indicating that cirral skeletogenesis is similar to vertebrate osteogenesis. We propose that the common ancestors of chordates possessed a genetic regulatory system that was the prototype of chondrogenesis and osteogenesis in vertebrates. Genome duplications caused divergence of this genetic regulatory system resulting in the emergence of cartilage and mineralized bone. The development of the vertebrate skeleton is an example of the functional segregation and subsequent recruitment of unique genetic materials that may account for the evolutionary diversification of novel cell types.

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Characterization of morphological conversion of Helicobacter pylori under anaerobic conditions

Hirukawa

Sagara

Kaneto

et al. 2018

Microbiology and Immunology

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Helicobacter pylori (H. pylori), a gram-negative microaerophilic bacterial pathogen that colonizes the stomachs of more than half of all humans, is linked to chronic gastritis, peptic ulcers and gastric cancer. Spiral-shaped H. pylori undergo morphologic conversion to a viable but not culturable coccoid form when they transit from the microaerobic stomach into the anaerobic intestinal tract. However, little is known about the morphological and pathogenic characteristics of H. pylori under prolonged anaerobic conditions. In this study, scanning electron microscopy was used to document anaerobiosis-induced morphological changes of H. pylori, from helical to coccoid to a newly defined fragmented form. Western blot analysis indicated that all three forms express certain pathogenic proteins, including the bacterial cytotoxin-associated gene A (CagA), components of the cag-Type IV secretion system (TFSS), the blood group antigen-binding adhesin BabA, and UreA (an apoenzyme of urease), almost equally. Similar urease activities were also detected in all three forms of H. pylori. However, in contrast to the helical form, bacterial motility and TFSS activity were found to have been abrogated in the anaerobiosis-induced coccoid and fragmented forms of H. pylori. Notably, it was demonstrated that some of the anaerobiosis-induced fragmented state cells could be converted to proliferation-competent helical bacteria in vitro. These results indicate that prolonged exposure to the anaerobic intestine may not eliminate the potential for H. pylori to revert to the helical pathogenic state.

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Satoshi Kaneto

Transcription factor Spi-B–dependent and –independent pathways for the development of Peyer's patch M cells

Eosinophil depletion suppresses radiation-induced small intestinal fibrosis

Allograft inflammatory factor 1 is a regulator of transcytosis in M cells

Regeneration of amphioxus oral cirri and its skeletal rods: implications for the origin of the vertebrate skeleton

Characterization of morphological conversion of Helicobacter pylori under anaerobic conditions

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