Your search keyword '"Tamotsu Kato"' showing total 25 results

1. Transition from hypothyroidism to Graves’ disease, development of thyroid eye disease, progression to optic neuropathy after inpatient pulse therapy, and long-term administration of outpatient pulse therapy: a case report with review of literature

Author

Koichiro Mizuochi, Yuji Hiromatsu, Yui Nakamura, Aya Sonezaki, Ayaka Adachi, Tamotsu Kato, Nobuhiko Wada, Tomohiro Kurose, and Shiho Watanabe

Subjects

graves’ disease, hashimoto’s thyroiditis, dysthyroid optic neuropathy, pulse therapy, thyroid-stimulating antibody, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

A 55-year-old woman transitioned from hypothyroidism to Graves’ disease (GD) and then developed thyroid eye disease (TED) with proptosis and diplopia. After three cycles of daily methylprednisolone pulse therapy, her condition progressed to dysthyroid optic neuropathy with decreased visual acuity in both eyes. Her clinical activity score (CAS) was 7 points. Orbital magnetic resonance imaging (MRI) showed that the enlarged extraocular muscles were compressing the optic nerve in the area of the cones. Although her visual acuity recovered during two further cycles of daily pulse therapy, disease activity persisted for 4 years. TED exacerbated five times. Each time, the patient received weekly pulse therapy with no adverse reactions until her ophthalmopathy was relieved. The total cumulative dose of methylprednisolone was 59.5 g. Thyroid-stimulating antibody (TSAb) was positive from the time of hypothyroidism onset and became strongly positive with the onset of GD and the progress of TED. In addition, MRI was useful for the evaluation of the pathophysiology of ophthalmopathy. This case report suggests that careful monitoring by both endocrinologists and ophthalmologists using CAS, ophthalmological assessments, TSAb measurement, and orbital MRI are useful for making treatment decisions for TED.

Published

2025

2. Inhibition of skin fibrosis via regulation of Th17/Treg imbalance in systemic sclerosis

Author

Akiko Sekiguchi, Chikako Shimokawa, Tamotsu Kato, Akihiko Uchiyama, Yoko Yokoyama, Sachiko Ogino, Ryoko Torii, Hajime Hisaeda, Hiroshi Ohno, and Sei-ichiro Motegi

Subjects

Systemic sclerosis, Th17/Treg balance, Fibrosis, Bleomycin, Heligmosomoides polygilus, Microbiota, Medicine, Science

Abstract

Abstract Systemic sclerosis (SSc) is an idiopathic systemic connective tissue disorder characterized by fibrosis of the skin and internal organs, with growing interest in the imbalance between Th17 cells and regulatory T cells (Tregs) in the disease’s pathogenesis. Heligmosomoides polygyrus (Hp), a natural intestinal parasite of mice, is known to induce Tregs in the host. We aimed to investigate the effects of Hp-induced Tregs on bleomycin-induced dermal fibrosis and clarify the role of the Th17/Treg balance in SSc fibrosis. Infection with Hp suppressed the development of bleomycin-induced dermal fibrosis and the infiltration of CD3+ T cells and CD68+ macrophages. Flow cytometric analysis revealed that Hp infection increased Tregs and inhibited the induction of bleomycin-induced Th17 cells. Treg depletion nullified these effects, suggesting that Hp-induced Tregs may prevent bleomycin-induced dermal fibrosis and inflammation. Analysis of the intestinal microbiota showed that bacteria positively correlated with Tregs exhibited a negative correlation with Th17 cells and dermal fibrosis in mice. SSc patients with severe fibrosis displayed a distinct microbiota profile. These results suggest that alterations in the intestinal microbiota may contribute to the Th17/Treg imbalance in SSc and its progression. Enhancing Tregs to regulate the Th17/Treg imbalance may present a promising strategy for suppressing fibrosis in SSc.

Published

2025

3. Changes in the intestinal microbiota of Japanese children during the first 3.5 years of life

Author

Yuta Tsuruoka, Tamotsu Kato, Masahiro Watanabe, Naoko Taguchi-Atarashi, Hiroshi Ohno, Chisato Mori, and Kenichi Sakurai

Subjects

Gut microbiota, Longitudinal study, Infant, Mother–child pair, Similarity, Older sibling, Medicine, Science

Abstract

Abstract Human gut microbiota plays a crucial role in health and disease. Infancy is a critical period for gut microbiota maturation and immune system development and has the potential to affect long-term health. Understanding the development of gut microbiota in Japanese children is essential because of regional differences and the long-term health effects of the early gut microbiota. However, while several longitudinal studies in Japan have explored the development of the gut microbiota after birth, more extended follow-up periods are still needed. In this study, we aimed to analyze the gut microbiota of 106 Japanese mother–child pairs from the Chiba Study of Mother and Child Health, Japan, over 3.5 years. The results showed that the alpha diversity of the gut microbiota in children increased with age, and its composition began to resemble that of adults. We identified four distinct clusters of gut microbiota that reflected different maturation stages. The similarity between the maternal and child gut microbiota appeared to follow a bimodal-like distribution, suggesting that the presence of older siblings may enhance this similarity. This study highlights the dynamic nature of gut microbiota development in Japanese children and deepens our understanding of the similarities between maternal and child gut microbiota.

Published

2024

4. Modulation of gut microbiota composition due to early weaning stress induces depressive behavior during the juvenile period in mice

Author

Itsuka Kamimura, Eiji Miyauchi, Tadashi Takeuchi, Noriaki Tsuchiya, Kanami Tamura, Ayumi Uesugi, Hiroki Negishi, Takashi Taida, Tamotsu Kato, Masami Kawasumi, Miho Nagasawa, Kazutaka Mogi, Hiroshi Ohno, and Takefumi Kikusui

Subjects

Microbiome, Stress, Behavior, Depression, Germ-Free Mouse, Veterinary medicine, SF600-1100, Microbiology, QR1-502

Abstract

Abstract Background The gut microbiota plays an important role in the development of behavior and immunity in infants and juveniles. Early weaning (EW), a form of social stress in mice, leads to increased anxiety and an enhanced stress response in the hypothalamic-pituitary-adrenal axis during adulthood. Early life stress also modulates the immune system and increases vulnerability to infection. However, studies investigating the causal relationships among juvenile stress, microbiota changes, and immune and behavioral deficits are limited. Therefore, we hypothesized that EW alters gut microbiota composition and impairs the development of the nervous and immune systems. Results EW mice moved longer distances in the marble-burying test and had longer immobility times in the tail suspension test than normal weaning (NW) mice. In parallel, the gut microbiome composition differed between NW and EW mice, and the abundance of Erysipelotrichacea in EW mice at 8 weeks of age was lower than that in NW mice. In an empirical study, germ-free mice colonized with the gut microbiota of EW mice (GF-EW mice) demonstrated higher depressive behavior than GF mice colonized with normal weaning microbiota (GF-NW mice). Immune cell profiles were also affected by the EW microbiota colonization; the number of CD4 + T cells in the spleen was reduced in GF-EW mice. Conclusion Our results suggest that EW-induced alterations in the gut microbiota cause depressive behaviors and modulate the immune system.

Published

2024

5. Gut microbiota and fecal metabolites in sustained unresponsiveness by oral immunotherapy in school-age children with cow's milk allergy

Author

Ryohei Shibata, Naoka Itoh, Yumiko Nakanishi, Tamotsu Kato, Wataru Suda, Mizuho Nagao, Tsutomu Iwata, Hideo Yoshida, Masahira Hattori, Takao Fujisawa, Naoki Shimojo, and Hiroshi Ohno

Subjects

Casein-specific IgE, Cow's milk allergy, Fecal metabolites, Gut microbiota, Oral immunotherapy, Immunologic diseases. Allergy, RC581-607

Abstract

Background: Oral immunotherapy (OIT) can ameliorate cow's milk allergy (CMA); however, the achievement of sustained unresponsiveness (SU) is challenging. Regarding the pathogenesis of CMA, recent studies have shown the importance of gut microbiota (Mb) and fecal water-soluble metabolites (WSMs), which prompted us to determine the change in clinical and gut environmental factors important for acquiring SU after OIT for CMA. Methods: We conducted an ancillary cohort study of a multicenter randomized, parallel-group, delayed-start design study on 32 school-age children with IgE-mediated CMA who underwent OIT for 13 months. We defined SU as the ability to consume cow's milk exceeding the target dose in a double-blind placebo-controlled food challenge after OIT followed by a 2-week-avoidance. We longitudinally collected 175 fecal specimens and clustered the microbiome and metabolome data into 29 Mb- and 12 WSM-modules. Results: During OIT, immunological factors improved in all participants. However, of the 32 participants, 4 withdrew because of adverse events, and only 7 were judged SU. Gut environmental factors shifted during OIT, but only in the beginning, and returned to the baseline at the end. Of these factors, milk- and casein-specific IgE and the Bifidobacterium-dominant module were associated with SU (milk- and casein-specific IgE; OR for 10 kUA/L increments, 0.67 and 0.66; 95%CI, 0.41–0.93 and 0.42–0.90; Bifidobacterium-dominant module; OR for 0.01 increments, 1.40; 95%CI, 1.10–2.03), and these associations were observed until the end of OIT. Conclusions: In this study, we identified the clinical and gut environmental factors associated with SU acquisition in CM-OIT.

Published

2024

6. Estimation of silent phenotypes of calf antibiotic dysbiosis

Author

Shunnosuke Okada, Yudai Inabu, Hirokuni Miyamoto, Kenta Suzuki, Tamotsu Kato, Atsushi Kurotani, Yutaka Taguchi, Ryoichi Fujino, Yuji Shiotsuka, Tetsuji Etoh, Naoko Tsuji, Makiko Matsuura, Arisa Tsuboi, Akira Saito, Hiroshi Masuya, Jun Kikuchi, Yuya Nagasawa, Aya Hirose, Tomohito Hayashi, Hiroshi Ohno, and Hideyuki Takahashi

Subjects

Medicine, Science

Abstract

Abstract Reducing antibiotic usage among livestock animals to prevent antimicrobial resistance has become an urgent issue worldwide. This study evaluated the effects of administering chlortetracycline (CTC), a versatile antibacterial agent, on the performance, blood components, fecal microbiota, and organic acid concentrations of calves. Japanese Black calves were fed with milk replacers containing CTC at 10 g/kg (CON group) or 0 g/kg (EXP group). Growth performance was not affected by CTC administration. However, CTC administration altered the correlation between fecal organic acids and bacterial genera. Machine learning (ML) methods such as association analysis, linear discriminant analysis, and energy landscape analysis revealed that CTC administration affected populations of various types of fecal bacteria. Interestingly, the abundance of several methane-producing bacteria at 60 days of age was high in the CON group, and the abundance of Lachnospiraceae, a butyrate-producing bacterium, was high in the EXP group. Furthermore, statistical causal inference based on ML data estimated that CTC treatment affected the entire intestinal environment, potentially suppressing butyrate production, which may be attributed to methanogens in feces. Thus, these observations highlight the multiple harmful impacts of antibiotics on the intestinal health of calves and the potential production of greenhouse gases by calves.

Published

2023

7. An agroecological structure model of compost—soil—plant interactions for sustainable organic farming

Author

Hirokuni Miyamoto, Katsumi Shigeta, Wataru Suda, Yasunori Ichihashi, Naoto Nihei, Makiko Matsuura, Arisa Tsuboi, Naoki Tominaga, Masahiko Aono, Muneo Sato, Shunya Taguchi, Teruno Nakaguma, Naoko Tsuji, Chitose Ishii, Teruo Matsushita, Chie Shindo, Toshiaki Ito, Tamotsu Kato, Atsushi Kurotani, Hideaki Shima, Shigeharu Moriya, Satoshi Wada, Sankichi Horiuchi, Takashi Satoh, Kenichi Mori, Takumi Nishiuchi, Hisashi Miyamoto, Hiroaki Kodama, Masahira Hattori, Hiroshi Ohno, Jun Kikuchi, and Masami Yokota Hirai

Subjects

Microbial ecology, QR100-130

Abstract

Abstract Compost is used worldwide as a soil conditioner for crops, but its functions have still been explored. Here, the omics profiles of carrots were investigated, as a root vegetable plant model, in a field amended with compost fermented with thermophilic Bacillaceae for growth and quality indices. Exposure to compost significantly increased the productivity, antioxidant activity, color, and taste of the carrot root and altered the soil bacterial composition with the levels of characteristic metabolites of the leaf, root, and soil. Based on the data, structural equation modeling (SEM) estimated that amino acids, antioxidant activity, flavonoids and/or carotenoids in plants were optimally linked by exposure to compost. The SEM of the soil estimated that the genus Paenibacillus and nitrogen compounds were optimally involved during exposure. These estimates did not show a contradiction between the whole genomic analysis of compost-derived Paenibacillus isolates and the bioactivity data, inferring the presence of a complex cascade of plant growth-promoting effects and modulation of the nitrogen cycle by the compost itself. These observations have provided information on the qualitative indicators of compost in complex soil-plant interactions and offer a new perspective for chemically independent sustainable agriculture through the efficient use of natural nitrogen.

Published

2023

8. Dysbiotic human oral microbiota alters systemic metabolism via modulation of gut microbiota in germ-free mice

Author

Kyoko Yamazaki, Eiji Miyauchi, Tamotsu Kato, Keisuke Sato, Wataru Suda, Takahiro Tsuzuno, Miki Yamada-Hara, Nobuo Sasaki, Hiroshi Ohno, and Kazuhisa Yamazaki

Subjects

Oral, gut, microbiome, liver, transcriptome, metabolome, Infectious and parasitic diseases, RC109-216, Microbiology, QR1-502

Abstract

Background The effect of oral microbiota on the intestinal microbiota has garnered growing attention as a mechanism linking periodontal diseases to systemic diseases. However, the salivary microbiota is diverse and comprises numerous bacteria with a largely similar composition in healthy individuals and periodontitis patients.Aim We explored how health-associated and periodontitis-associated salivary microbiota differently colonized the intestine and their subsequent systemic effects.Methods The salivary microbiota was collected from a healthy individual and a periodontitis patient and gavaged into C57BL/6NJcl[GF] mice. Gut microbial communities, hepatic gene expression profiles, and serum metabolites were analyzed.Results The gut microbial composition was significantly different between periodontitis-associated microbiota-administered (PAO) and health-associated oral microbiota-administered (HAO) mice. The hepatic gene expression profile demonstrated a distinct pattern between the two groups, with higher expression of lipid and glucose metabolism-related genes. Disease-associated metabolites such as 2-hydroxyisobutyric acid and hydroxybenzoic acid were elevated in PAO mice. These metabolites were significantly correlated with characteristic gut microbial taxa in PAO mice. Conversely, health-associated oral microbiota were associated with higher levels of beneficial serum metabolites in HAO mice.Conclusion The multi-omics approach used in this study revealed that periodontitis-associated oral microbiota is associated with the induction of disease phenotype when they colonized the gut of germ-free mice.

Published

2022

9. A Japanese Herbal Formula, Daikenchuto, Alleviates Experimental Colitis by Reshaping Microbial Profiles and Enhancing Group 3 Innate Lymphoid Cells

Author

Zhengzheng Shi, Tadashi Takeuchi, Yumiko Nakanishi, Tamotsu Kato, Katharina Beck, Ritsu Nagata, Tomoko Kageyama, Ayumi Ito, Hiroshi Ohno, and Naoko Satoh-Takayama

Subjects

Japanese herbal medicine (Kampo medicine), Daikenchuto (DKT), biomolecular functions of herbal medicine, experimental colitis, Lactobacillaceae, gut microbiota, Immunologic diseases. Allergy, RC581-607

Abstract

Daikenchuto (DKT) is one of the most widely used Japanese herbal formulae for various gastrointestinal disorders. It consists of Zanthoxylum Fructus (Japanese pepper), Zingiberis Siccatum Rhizoma (processed ginger), Ginseng radix, and maltose powder. However, the use of DKT in clinical settings is still controversial due to the limited molecular evidence and largely unknown therapeutic effects. Here, we investigated the anti-inflammatory actions of DKT in the dextran sodium sulfate (DSS)-induced colitis model in mice. We observed that DKT remarkably attenuated the severity of experimental colitis while maintaining the members of the symbiotic microbiota such as family Lactobacillaceae and increasing levels of propionate, an immunomodulatory microbial metabolite, in the colon. DKT also protected colonic epithelial integrity by upregulating the fucosyltransferase gene Fut2 and the antimicrobial peptide gene Reg3g. More remarkably, DKT restored the reduced colonic group 3 innate lymphoid cells (ILC3s), mainly RORγthigh-ILC3s, in DSS-induced colitis. We further demonstrated that ILC3-deficient mice showed increased mortality during experimental colitis, suggesting that ILC3s play a protective function on colonic inflammation. These findings demonstrate that DKT possesses anti-inflammatory activity, partly via ILC3 function, to maintain the colonic microenvironment. Our study also provides insights into the molecular basis of herbal medicine effects, promotes more profound mechanistic studies towards herbal formulae and contributes to future drug development.

Published

2022

10. Association between gut microbiota composition and glycoalbumin level during pregnancy in Japanese women: Pilot study from Chiba Study of Mother and Child Health

Author

Kenichi Sakurai, Tamotsu Kato, Hiromi Tanabe, Naoko Taguchi‐Atarashi, Yumi Sato, Akifumi Eguchi, Masahiro Watanabe, Hiroshi Ohno, and Chisato Mori

Subjects

Gut microbiota, Pregnancy, Serum glycoalbumin, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

Abstract Aims/Introduction Gut microbiota have various effects on human health. Some previous reports have shown that gut microbiota change during pregnancy and affect metabolism, but others have shown that microbiota do not change. Here, we examined the gut microbiota and glycoalbumin levels of 45 healthy Japanese women during pregnancy. Materials and Methods We carried out 16S rRNA gene sequencing analyses of maternal stool samples and compared the gut microbiota composition of samples from women in early and late pregnancy. We also examined the association between gut microbiota and maternal characteristics, including glycoalbumin. Results Microbiota composition in early and late pregnancy did not differ, according to principal coordinate analysis of weighted and unweighted UniFrac distances. Shannon indices were not different between early and late pregnancy. The proportion of one phylum, TM7, significantly decreased in late pregnancy compared with early pregnancy, but the proportions of other major phyla did not change. The Shannon index of late pregnancy was negatively associated with pregestational body mass index and positively correlated with glycoalbumin level, with adjustment of covariates. Conclusions We concluded that Japanese women did not show obvious differences in gut microbiota during pregnancy, except for TM7, and that the diversity of gut microbiota might affect maternal metabolism. As this study had limited statistical power, further large‐scale studies are required.

Published

2020

11. CD8+ regulatory T cells are critical in prevention of autoimmune-mediated diabetes

Author

Chikako Shimokawa, Tamotsu Kato, Tadashi Takeuchi, Noriyasu Ohshima, Takao Furuki, Yoshiaki Ohtsu, Kazutomo Suzue, Takashi Imai, Seiji Obi, Alex Olia, Takashi Izumi, Minoru Sakurai, Hirokazu Arakawa, Hiroshi Ohno, and Hajime Hisaeda

Subjects

Science

Abstract

Helminth infections are associated with a reduction in inflammatory pathology in rodent models of type 1 diabetes. Here, the authors show patient data and that trehalose (produced by H. polygyrus) can alter the microbiome of mice, inducing regulatory CD8+ T cells and reducing susceptibility to autoimmune diabetes.

Published

2020

12. Bacterial cancer therapy in autochthonous colorectal cancer affects tumor growth and metabolic landscape

Author

Gillian M. Mackie, Alastair Copland, Masumi Takahashi, Yumiko Nakanishi, Isabel Everard, Tamotsu Kato, Hirotsugu Oda, Takashi Kanaya, Hiroshi Ohno, and Kendle M. Maslowski

Subjects

Gastroenterology, Medicine

Abstract

Bacterial cancer therapy (BCT) shows great promise for treatment of solid tumors, yet basic mechanisms of bacterial-induced tumor suppression remain undefined. Attenuated strains of Salmonella enterica serovar Typhimurium (STm) have commonly been used in mouse models of BCT in xenograft and orthotopic transplant cancer models. We aimed to better understand the tumor epithelium–targeted mechanisms of BCT by using autochthonous mouse models of intestinal cancer and tumor organoid cultures to assess the effectiveness and consequences of oral treatment with aromatase A–deficient STm (STmΔaroA). STmΔaroA delivered by oral gavage significantly reduced tumor burden and tumor load in both a colitis-associated colorectal cancer (CAC) model and in a spontaneous Apcmin/+ intestinal cancer model. STmΔaroA colonization of tumors caused alterations in transcription of mRNAs associated with tumor stemness, epithelial-mesenchymal transition, and cell cycle. Metabolomic analysis of tumors demonstrated alteration in the metabolic environment of STmΔaroA-treated tumors, suggesting that STmΔaroA imposes metabolic competition on the tumor. Use of tumor organoid cultures in vitro recapitulated effects seen on tumor stemness, mesenchymal markers, and altered metabolome. Furthermore, live STmΔaroA was required, demonstrating active mechanisms including metabolite usage. We have demonstrated that oral BCT is efficacious in autochthonous intestinal cancer models, that BCT imposes metabolic competition, and that BCT has direct effects on the tumor epithelium affecting tumor stem cells.

Published

2021

13. Oral Pathobiont-Induced Changes in Gut Microbiota Aggravate the Pathology of Nonalcoholic Fatty Liver Disease in Mice

Author

Kyoko Yamazaki, Tamotsu Kato, Yuuri Tsuboi, Eiji Miyauchi, Wataru Suda, Keisuke Sato, Mayuka Nakajima, Mai Yokoji-Takeuchi, Miki Yamada-Hara, Takahiro Tsuzuno, Aoi Matsugishi, Naoki Takahashi, Koichi Tabeta, Nobuaki Miura, Shujiro Okuda, Jun Kikuchi, Hiroshi Ohno, and Kazuhisa Yamazaki

Subjects

metabolome, metagenomic analysis, NAFLD, periodontopathic bacteria, oral–gut connection, periodontitis, Immunologic diseases. Allergy, RC581-607

Abstract

Background & AimsPeriodontitis increases the risk of nonalcoholic fatty liver disease (NAFLD); however, the underlying mechanisms are unclear. Here, we show that gut dysbiosis induced by oral administration of Porphyromonas gingivalis, a representative periodontopathic bacterium, is involved in the aggravation of NAFLD pathology.MethodsC57BL/6N mice were administered either vehicle, P. gingivalis, or Prevotella intermedia, another periodontopathic bacterium with weaker periodontal pathogenicity, followed by feeding on a choline-deficient, l-amino acid-defined, high-fat diet with 60 kcal% fat and 0.1% methionine (CDAHFD60). The gut microbial communities were analyzed by pyrosequencing the 16S ribosomal RNA genes. Metagenomic analysis was used to determine the relative abundance of the Kyoto Encyclopedia of Genes and Genomes pathways encoded in the gut microbiota. Serum metabolites were analyzed using nuclear magnetic resonance-based metabolomics coupled with multivariate statistical analyses. Hepatic gene expression profiles were analyzed via DNA microarray and quantitative polymerase chain reaction.ResultsCDAHFD60 feeding induced hepatic steatosis, and in combination with bacterial administration, it further aggravated NAFLD pathology, thereby increasing fibrosis. Gene expression analysis of liver samples revealed that genes involved in NAFLD pathology were perturbed, and the two bacteria induced distinct expression profiles. This might be due to quantitative and qualitative differences in the influx of bacterial products in the gut because the serum endotoxin levels, compositions of the gut microbiota, and serum metabolite profiles induced by the ingested P. intermedia and P. gingivalis were different.ConclusionsSwallowed periodontopathic bacteria aggravate NAFLD pathology, likely due to dysregulation of gene expression by inducing gut dysbiosis and subsequent influx of gut bacteria and/or bacterial products.

Published

2021

14. Obesity-Related Gut Microbiota Aggravates Alveolar Bone Destruction in Experimental Periodontitis through Elevation of Uric Acid

Author

Keisuke Sato, Kyoko Yamazaki, Tamotsu Kato, Yumiko Nakanishi, Takahiro Tsuzuno, Mai Yokoji-Takeuchi, Miki Yamada-Hara, Nobuaki Miura, Shujiro Okuda, Hiroshi Ohno, and Kazuhisa Yamazaki

Subjects

Microbiology, QR1-502

Abstract

Obesity is an epidemic health issue with a rapid increase worldwide. It increases the risk of various diseases, including periodontal disease, an oral chronic infectious disease.

Published

2021

15. Corrigendum to 'Association of the maternal microbiome in Japanese pregnant women with the cumulative prevalence of dermatitis in early infancy: A pilot study from the Chiba study of Mother and Child Health birth cohort' [World Allergy Organ J 12/10 (2019) 100065]

Author

Hiromi Tanabe, Kenichi Sakurai, Tamotsu Kato, Yohei Kawasaki, Taiji nakano, Fumiya Yamaide, Naoko Taguchi-Atarashi, Masahiro Watanabe, Shingo Ochiai, Hiroshi Ohno, Hideoki Fukuoka, Naoki Shimojo, and Chisato Mori

Subjects

Immunologic diseases. Allergy, RC581-607

Published

2021

16. Next-generation prebiotic promotes selective growth of bifidobacteria, suppressing Clostridioides difficile

Author

Rika Hirano, Mikiyasu Sakanaka, Kazuto Yoshimi, Naohisa Sugimoto, Syogo Eguchi, Yuko Yamauchi, Misaki Nara, Shingo Maeda, Yuta Ami, Aina Gotoh, Takane Katayama, Noriho Iida, Tamotsu Kato, Hiroshi Ohno, Satoru Fukiya, Atsushi Yokota, Mamoru Nishimoto, Motomitsu Kitaoka, Hiroyuki Nakai, and Shin Kurihara

Subjects

prebiotic, probiotic, bifidobacteria, microbiome, microbiota, clostridioides difficile, Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

Certain existing prebiotics meant to facilitate the growth of beneficial bacteria in the intestine also promote the growth of other prominent bacteria. Therefore, the growth-promoting effects of β-galactosides on intestinal bacteria were analyzed. Galactosyl-β1,4-l-rhamnose (Gal-β1,4-Rha) selectively promoted the growth of Bifidobacterium. Bifidobacterium longum subsp. longum 105-A (JCM 31944) has multiple solute-binding proteins belonging to ATP-binding cassette transporters for sugars. Each strain in the library of 11 B. longum subsp. longum mutants, in which each gene of the solute-binding protein was disrupted, was cultured in a medium containing Gal-β1,4-Rha as the sole carbon source, and only the BL105A_0502 gene-disruption mutant showed delayed and reduced growth compared to the wild-type strain. BL105A_0502 homolog is highly conserved in bifidobacteria. In a Gal-β1,4-Rha-containing medium, Bifidobacterium longum subsp. infantis JCM 1222T, which possesses BLIJ_2090, a homologous protein to BL105A_0502, suppressed the growth of enteric pathogen Clostridioides difficile, whereas the BLIJ_2090 gene-disrupted mutant did not. In vivo, administration of B. infantis and Gal-β1,4-Rha alleviated C. difficile infection-related weight loss in mice. We have successfully screened Gal-β1,4-Rha as a next-generation prebiotic candidate that specifically promotes the growth of beneficial bacteria without promoting the growth of prominent bacteria and pathogens.

Published

2021

17. Aggravation of collagen-induced arthritis by orally administered Porphyromonas gingivalis through modulation of the gut microbiota and gut immune system

Author

Keisuke Sato, Naoki Takahashi, Tamotsu Kato, Yumi Matsuda, Mai Yokoji, Miki Yamada, Takako Nakajima, Naoki Kondo, Naoto Endo, Reiko Yamamoto, Yuichiro Noiri, Hiroshi Ohno, and Kazuhisa Yamazaki

Subjects

Medicine, Science

Abstract

Abstract Porhyromonas gingivalis, a causative bacterium of periodontitis, is implicated in the etiology of rheumatoid arthritis (RA), mainly because of expressing peptidyl arginine deiminase (PAD) that generates RA-related autoantigens. However, compared with other periodontopathic bacteria, the precise role of P. gingivalis in RA is largely unknown. We found that orally administered P. gingivalis changed the gut microbiome with concomitant elevation of serum endotoxin and inflammatory markers, and impairment of the gut barrier function. Based on findings showing a relationship between gut microbiota and RA, we investigated whether the change of gut microbiota induced by P. gingivalis and Prevotella intermedia, another periodontopathic bacterium without PAD, is associated with collagen-induced arthritis (CIA). DBA/1J mice were orally administered with or without bacteria followed by induction of CIA. P. gingivalis, but not P. intermedia, administration significantly aggravated arthritis with increased interleukin-17 levels in sera and culture supernatants, increased Th17 cell proportions among mesenteric lymphocytes, and a significant change in the gut microbiome. However, P. gingivalis administration did not elevate the level of anti-citrullinated protein antibody. These results suggest a unique role of P. gingivalis in the link between periodontitis and RA by affecting the gut immune system and the gut microbiota composition.

Published

2017

18. Dietary Antigens Induce Germinal Center Responses in Peyer's Patches and Antigen-Specific IgA Production

Author

Satoko Hara, Takaharu Sasaki, Naoko Satoh-Takayama, Takashi Kanaya, Tamotsu Kato, Yui Takikawa, Masumi Takahashi, Naoko Tachibana, Kwang Soon Kim, Charles D. Surh, and Hiroshi Ohno

Subjects

IgA, dietary antigens, Peyer's patches, mucosal immunology, germinal center (GC) reaction, Immunologic diseases. Allergy, RC581-607

Abstract

The primary induction sites for intestinal IgA are the gut-associated lymphoid tissues (GALT), such as Peyer's patches (PPs) and isolated lymphoid follicles (ILFs). The commensal microbiota is known to contribute to IgA production in the gut; however, the role of dietary antigens in IgA production is poorly understood. To understand the effect of dietary antigens on IgA production, post-weaning mice were maintained on an elemental diet without any large immunogenic molecules. We found that dietary antigens contribute to IgA production in PPs through induction of follicular helper T cells and germinal center B cells. The role of dietary antigens in the PP responses was further confirmed by adding bovine serum albumin (BSA) into the elemental diet. Although dietary antigens are important for PP responses, they have fewer effects than the microbiota on the development and maturation of ILFs. Furthermore, we demonstrated that dietary antigens are essential for a normal antigen-specific IgA response to Salmonella typhi serovar Typhimurium infection. These results provide new insights into the role of dietary antigens in the regulation of mucosal immune responses.

Published

2019

19. Association of the maternal microbiome in Japanese pregnant women with the cumulative prevalence of dermatitis in early infancy: A pilot study from the Chiba study of Mother and Child Health birth cohort

Author

Hiromi Tanabe, Kenichi Sakurai, Tamotsu Kato, Yohei Kawasaki, Taiji Nakano, Fumiya Yamaide, Naoko Taguchi-Atarashi, Masahiro Watanabe, Shingo Ochiai, Hiroshi Ohno, Hideoki Fukuoka, Naoki Shimojo, and Chisato Mori

Subjects

Immunologic diseases. Allergy, RC581-607

Abstract

Background: The prenatal maternal microbiome, including the gut microbiota, has been suggested to influence the incidence of allergies in offspring. Moreover, epidermal barrier dysfunction in early infancy has been attributed to the development of subsequent allergies. We hypothesized that the prenatal microbiome may affect the gut microbiota, acting as an initial trigger to alter immune development in the foetus. The maternal microbial composition may be linked to the prevalence of dermatitis in early infancy (DEI) of the offspring, leading to subsequent allergic symptoms. Methods: This study was conducted as part of the Chiba Study of Mother and Child Health (C-MACH) birth cohort that was initiated in 2013; 434 healthy pregnant women at

Published

2019

20. Innate Lymphoid Cells in the Induction of Obesity

Author

Takaharu Sasaki, Kazuyo Moro, Tetsuya Kubota, Naoto Kubota, Tamotsu Kato, Hiroshi Ohno, Susumu Nakae, Hirohisa Saito, and Shigeo Koyasu

Subjects

Biology (General), QH301-705.5

Abstract

Summary: Complex interactions between immune cells are an important component in the induction of obesity. Here, we show that Il2rg−/−Rag2−/− mice lacking all lymphocytes are resistant to diet-induced obesity. Transplantation of bone marrow cells from Rag2−/− mice, which lack only acquired immune cells, into Il2rg−/−Rag2−/− mice abolishes this resistance, indicating a role for innate lymphoid cells (ILCs) in this process. Mice lacking ILC2 or ILC3 cells, but not natural killer cells, are resistant to obesity. Adoptive transfer of naive ILC2s isolated from the small intestine (SI), but not ILC2s from white adipose tissue (WAT), restores the induction of diet-induced obesity in Il2rg−/−Rag2−/− mice. Analysis of transcriptional differences reveals that SI-ILC2s express higher levels of IL-2 than do WAT-ILC2s and that blockade of IL-2 signaling impairs weight gain and reduces the populations of ILC2s and ILC3s in the SI, suggesting a role for the IL-2/ILC2/3 axis in the induction of obesity. : Innate lymphoid cells (ILCs) are recently identified lymphocyte populations characterized by the lack of antigen-specific receptors. Sasaki et al. demonstrate the involvement of ILCs in the induction of diet-induced obesity. Specifically, they show that small intestinal ILC2s, but not white adipose tissue ILC2s, are involved in the induction of obesity. Keywords: obesity, high-fat diet, innate lymphoid cells, ILC2, ILC3, small intestine, white adipose tissue, common gamma chain, γc, interleukin-2

Published

2019

21. Oral Administration of Porphyromonas gingivalis Alters the Gut Microbiome and Serum Metabolome

Author

Tamotsu Kato, Kyoko Yamazaki, Mayuka Nakajima, Yasuhiro Date, Jun Kikuchi, Koji Hase, Hiroshi Ohno, and Kazuhisa Yamazaki

Subjects

Porphyromonas gingivalis, gut microbiome, metabolism, periodontitis, Microbiology, QR1-502

Abstract

ABSTRACT Periodontal disease induced by periodontopathic bacteria like Porphyromonas gingivalis is demonstrated to increase the risk of metabolic, inflammatory, and autoimmune disorders. Although precise mechanisms for this connection have not been elucidated, we have proposed mechanisms by which orally administered periodontopathic bacteria might induce changes in gut microbiota composition, barrier function, and immune system, resulting in an increased risk of diseases characterized by low-grade systemic inflammation. Accumulating evidence suggests a profound effect of altered gut metabolite profiles on overall host health. Therefore, it is possible that P. gingivalis can affect these metabolites. To test this, C57BL/6 mice were administered with P. gingivalis W83 orally twice a week for 5 weeks and compared with sham-inoculated mice. The gut microbial communities were analyzed by pyrosequencing the 16S rRNA genes. Inferred metagenomic analysis was used to determine the relative abundance of KEGG pathways encoded in the gut microbiota. Serum metabolites were analyzed using nuclear magnetic resonance (NMR)-based metabolomics coupled with multivariate statistical analyses. Oral administration of P. gingivalis induced a change in gut microbiota composition. The distributions of metabolic pathways differed between the two groups, including those related to amino acid metabolism and, in particular, the genes for phenylalanine, tyrosine, and tryptophan biosynthesis. Also, alanine, glutamine, histidine, tyrosine, and phenylalanine were significantly increased in the serum of P. gingivalis-administered mice. In addition to altering immune modulation and gut barrier function, oral administration of P. gingivalis affects the host’s metabolic profile. This supports our hypothesis regarding a gut-mediated systemic pathology resulting from periodontal disease. IMPORTANCE Increasing evidence suggest that alterations of the gut microbiome underlie metabolic disease pathology by modulating gut metabolite profiles. We have shown that orally administered Porphyromonas gingivalis, a representative periodontopathic bacterium, alters the gut microbiome; that may be a novel mechanism by which periodontitis increases the risk of various diseases. Given the association between periodontal disease and metabolic diseases, it is possible that P. gingivalis can affect the metabolites. Metabolite profiling analysis demonstrated that several amino acids related to a risk of developing diabetes and obesity were elevated in P. gingivalis-administered mice. Our results revealed that the increased risk of various diseases by P. gingivalis might be mediated at least in part by alteration of metabolic profiles. The findings should add new insights into potential links between periodontal disease and systemic disease for investigators in periodontal disease and also for investigators in the field of other diseases, such as metabolic diseases.

Published

2018

22. Oral Administration of P. gingivalis Induces Dysbiosis of Gut Microbiota and Impaired Barrier Function Leading to Dissemination of Enterobacteria to the Liver.

Author

Mayuka Nakajima, Kei Arimatsu, Tamotsu Kato, Yumi Matsuda, Takayoshi Minagawa, Naoki Takahashi, Hiroshi Ohno, and Kazuhisa Yamazaki

Subjects

Medicine, Science

Abstract

Although periodontitis has been implicated as a risk factor for various systemic diseases, the precise mechanisms by which periodontitis induces systemic disease remain to be elucidated. We have previously revealed that repeated oral administration of Porphyromonas gingivalis elicits endotoxemia via changes in the gut microbiota of the ileum, and thereby induces systemic inflammation and insulin resistance. However, it is not clear to what extent a single administration of P. gingivalis could affect gut microbiota composition, gut barrier function, and subsequent influx of gut microbiota into the liver. Therefore, in the present study, C57BL/6 mice were orally administered P. gingivalis (strain W83) once and compared to sham-inoculated mice. The phylogenetic structure and diversity of microbial communities in the gut and liver were analyzed by pyrosequencing the 16S ribosomal RNA genes. Serum endotoxin activity was determined by a Limulus amebocyte lysate test. Gene expression in the intestine and expression of 16S rRNA genes in the blood and liver were examined by quantitative polymerase chain reaction. Administration of P. gingivalis significantly altered gut microbiota, with an increased proportion of phylum Bacteroidetes, a decreased proportion of phylum Firmicutes, and increased serum endotoxin levels. In the intestinal tissues, gene expression of tjp-1 and occludin, which are involved in intestinal permeability, were downregulated. Higher amounts of bacterial DNA were detected in the liver of infected mice. Importantly, changes in gut microbiota preceded systemic inflammatory changes. These results further support the idea that disturbance of the gut microbiota composition by orally derived periodontopathic bacteria may be a causal mechanism linking periodontitis and systemic disease.

Published

2015

23. Role of a new bioassay for thyroid-stimulating antibodies (aequorin TSAb) in Graves' ophthalmopathy.

Author

Yuji Hiromatsu, Hiroyuki Eguchi, Yuko Matsuo, Tamotsu Kato, Junichi Tani, Shiho Watanabe, Yasuo Teshima, and Naohiro Araki

Published

2020

24. NALT M cells are important for immune induction for the common mucosal immune system.

Author

Yasuhiro Date, Masashi Ebisawa, Shinji Fukuda, Hideaki Shima, Yuuki Obata, Daisuke Takahashi, Tamotsu Kato, Misaho Hanazato, Gaku Nakato, Williams, Ifor R., Koji Hase, and Hiroshi Ohno

Subjects

LYMPHOID tissue, IMMUNE system, GLYCOPROTEINS, NASOPHARYNX, ANTIGENS, LABORATORY mice

Abstract

Nasopharynx-associated lymphoid tissue (NALT) is one of the major constituents of the mucosaassociated lymphoid tissue (MALT), and has the ability to induce antigen-specific immune responses. However, the molecular mechanisms responsible for antigen uptake from the nasal cavity into the NALT remain largely unknown. Immunohistochemical analysis showed that CCL9 and CCL20 were co-localized with glycoprotein 2 (GP2) in the epithelium covering NALT, suggesting the existence of M cells in NALT. In analogy with the reduced number of Peyer's patch M cells in CCR6-deficient mice, the number of NALT M cells was drastically decreased in CCR6-deficient mice compared with the wild-type mice. Translocation of nasally administered Salmonella enterica serovar Typhimurium into NALT via NALT M cells was impaired in CCR6-deficient mice, whereas S. Typhimurium demonstrated consistent co-localization with NALT M cells in wild-type mice. When wild-type mice were nasally administered with an attenuated vaccine strain of S. Typhimurium, the mice were protected from a subsequent challenge with wild-type S. Typhimurium. Antigen-specific fecal and nasal IgA was detected after nasal immunization with the attenuated vaccine strain of S. Typhimurium only in wild-type mice but not in CCR6-deficient mice. Taken together, these observations demonstrate that NALT M cells are important as a first line of defense against infection by enabling activation of the common mucosal immune system (CMIS). [ABSTRACT FROM AUTHOR]

Published

2017

25. Prevalence and clinical characteristics of unremembered nocturnal eating in diabetic subjects: Kurume sleep trouble in obesity and metabolic disorders (KUSTOMED) study.

Author

Kentaro Yamada, Hitomi Nakayama, Tomoko Kato, Yuji Tajiri, Shuichi Sato, Saori Hirao, Tamami Oshige, Kento Hara, Shinpei Iwata, Naoka Kato, Yuko Sasaki, Rika Hasuo, Satoko Yoshinobu, Kenshi Mitsuzaki, Tamotsu Kato, Toshihiko Hashinaga, Kazuhisa Muraishi, Tsuyoshi Ohki, and Hiroh Kaku

Published

2013