Updated on 2024/09/27

写真a

 
SHIRAKAWA Ibuki
 
Organization
Research Institute of Environmental Medicine Division of Stress Recognition and Response Designated assistant professor
Title
Designated assistant professor

Degree 1

  1. 博士(医学) ( 2001.6   帝京大学 ) 

Research Interests 3

  1. 生活習慣病

  2. 炎症

  3. マクロファージ

Research Areas 2

  1. Life Science / Pathological biochemistry

  2. Life Science / Functional biochemistry

Research History 2

  1. Tokyo Medical and Dental University   Designated assistant professor

    2015.4 - 2019.3

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    Country:Japan

  2. Teikyo University   Assistant

    1991.7 - 2004.3

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    Country:Japan

Education 1

  1. University of Tsukuba   Second Cluster of College

    1984.4 - 1988.3

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    Country: Japan

 

Papers 9

  1. Lysosomal cholesterol overload in macrophages promotes liver fibrosis in a mouse model of NASH Reviewed International journal

    Itoh, M; Tamura, A; Kanai, S; Tanaka, M; Kanamori, Y; Shirakawa, I; Ito, A; Oka, Y; Hidaka, I; Takami, T; Honda, Y; Maeda, M; Saito, Y; Murata, Y; Matozaki, T; Nakajima, A; Kataoka, Y; Ogi, T; Ogawa, Y; Suganami, T

    JOURNAL OF EXPERIMENTAL MEDICINE   Vol. 220 ( 11 )   2023.9

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    Language:English   Publishing type:Research paper (scientific journal)   Publisher:Journal of Experimental Medicine  

    Accumulation of lipotoxic lipids, such as free cholesterol, induces hepatocyte death and subsequent inflammation and fibrosis in the pathogenesis of nonalcoholic steatohepatitis (NASH). However, the underlying mechanisms remain unclear. We have previously reported that hepatocyte death locally induces phenotypic changes in the macrophages surrounding the corpse and remnant lipids, thereby promoting liver fibrosis in a murine model of NASH. Here, we demonstrated that lysosomal cholesterol overload triggers lysosomal dysfunction and profibrotic activation of macrophages during the development of NASH. β-cyclodextrin polyrotaxane (βCD-PRX), a unique supramolecule, is designed to elicit free cholesterol from lysosomes. Treatment with βCD-PRX ameliorated cholesterol accumulation and profibrotic activation of macrophages surrounding dead hepatocytes with cholesterol crystals, thereby suppressing liver fibrosis in a NASH model, without affecting the hepatic cholesterol levels. In vitro experiments revealed that cholesterol-induced lysosomal stress triggered profibrotic activation in macrophages predisposed to the steatotic microenvironment. This study provides evidence that dysregulated cholesterol metabolism in macrophages would be a novel mechanism of NASH.

    DOI: 10.1084/jem.20220681

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  2. Dietary Supplementation With Eicosapentaenoic Acid Inhibits Plasma Cell Differentiation and Attenuates Lupus Autoimmunity Reviewed

    Kobayashi Azusa, Ito Ayaka, Shirakawa Ibuki, Tamura Atsushi, Tomono Susumu, Shindou Hideo, Hedde Per Niklas, Tanaka Miyako, Tsuboi Naotake, Ishimoto Takuji, Akashi-Takamura Sachiko, Maruyama Shoichi, Suganami Takayoshi

    FRONTIERS IN IMMUNOLOGY   Vol. 12   page: 650856   2021.6

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    Language:Japanese   Publisher:Frontiers in Immunology  

    Accumulating evidence suggests that cholesterol accumulation in leukocytes is causally associated with the development of autoimmune diseases. However, the mechanism by which fatty acid composition influences autoimmune responses remains unclear. To determine whether the fatty acid composition of diet modulates leukocyte function and the development of systemic lupus erythematosus, we examined the effect of eicosapentaenoic acid (EPA) on the pathology of lupus in drug-induced and spontaneous mouse models. We found that dietary EPA supplementation ameliorated representative lupus manifestations, including autoantibody production and immunocomplex deposition in the kidneys. A combination of lipidomic and membrane dynamics analyses revealed that EPA remodels the lipid composition and fluidity of B cell membranes, thereby preventing B cell differentiation into autoantibody-producing plasma cells. These results highlight a previously unrecognized mechanism by which fatty acid composition affects B cell differentiation into autoantibody-producing plasma cells during autoimmunity, and imply that EPA supplementation may be beneficial for therapy of lupus.

    DOI: 10.3389/fimmu.2021.650856

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  3. Macrophages rely on extracellular serine to suppress aberrant cytokine production Reviewed

    Kurita Kento, Ohta Hiroya, Shirakawa Ibuki, Tanaka Miyako, Kitaura Yasuyuki, Iwasaki Yorihiro, Matsuzaka Takashi, Shimano Hitoshi, Aoe Seiichiro, Arima Hiroshi, Ogawa Yoshihiro, Ito Ayaka, Suganami Takayoshi

    SCIENTIFIC REPORTS   Vol. 11 ( 1 ) page: 11137   2021.5

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    Language:Japanese   Publisher:Scientific Reports  

    A growing body of evidence indicates that cellular metabolism is involved in immune cell functions, including cytokine production. Serine is a nutritionally non-essential amino acid that can be generated by de novo synthesis and conversion from glycine. Serine contributes to various cellular responses, but the role in inflammatory responses remains poorly understood. Here, we show that macrophages rely on extracellular serine to suppress aberrant cytokine production. Depleting serine from the culture media reduced the cellular serine content in macrophages markedly, suggesting that macrophages depend largely on extracellular serine rather than cellular synthesis. Under serine deprivation, macrophages stimulated with lipopolysaccharide showed aberrant cytokine expression patterns, including a marked reduction of anti-inflammatory interleukin-10 expression and sustained expression of interleukine-6. Transcriptomic and metabolomics analyses revealed that serine deprivation causes mitochondrial dysfunction: reduction in the pyruvate content, the NADH/NAD+ ratio, the oxygen consumption rate, and the mitochondrial production of reactive oxygen species (ROS). We also found the role of mitochondrial ROS in appropriate cytokine production. Thus, our results indicate that cytokine production in macrophages is tightly regulated by the nutritional microenvironment.

    DOI: 10.1038/s41598-021-90086-w

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  4. Dipeptidyl peptidase-4 inhibition prevents nonalcoholic steatohepatitis-associated liver fibrosis and tumor development in mice independently of its anti-diabetic effects Reviewed

    Kawakubo Mitsuhiro, Tanaka Miyako, Ochi Kozue, Watanabe Akiko, Saka-Tanaka Marie, Kanamori Yohei, Yoshioka Naoki, Yamashita Satoko, Goto Moritaka, Itoh Michiko, Shirakawa Ibuki, Kanai Sayaka, Suzuki Hiromi, Sawada Makoto, Ito Ayaka, Ishigami Masatoshi, Fujishiro Mitsuhiro, Arima Hiroshi, Ogawa Yoshihiro, Suganami Takayoshi

    SCIENTIFIC REPORTS   Vol. 10 ( 1 ) page: 983   2020.1

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    Language:Japanese   Publisher:Scientific Reports  

    Nonalcoholic steatohepatitis (NASH) is a hepatic phenotype of the metabolic syndrome, and increases the risk of cirrhosis and hepatocellular carcinoma (HCC). Although increasing evidence points to the therapeutic implications of certain types of anti-diabetic agents in NASH, it remains to be elucidated whether their effects on NASH are independent of their effects on diabetes. Genetically obese melanocortin 4 receptor–deficient (MC4R-KO) mice fed Western diet are a murine model that sequentially develops hepatic steatosis, NASH, and HCC in the presence of obesity and insulin resistance. In this study, we investigated the effect of the dipeptidyl peptidase-4 (DPP-4) inhibitor anagliptin on NASH and HCC development in MC4R-KO mice. Anagliptin treatment effectively prevented inflammation, fibrosis, and carcinogenesis in the liver of MC4R-KO mice. Interestingly, anagliptin only marginally affected body weight, systemic glucose and lipid metabolism, and hepatic steatosis. Histological data and gene expression analysis suggest that anagliptin treatment targets macrophage activation in the liver during the progression from simple steatosis to NASH. As a molecular mechanism underlying anagliptin action, we showed that glucagon-like peptide-1 suppressed proinflammatory and profibrotic phenotypes of macrophages in vitro. This study highlights the glucose metabolism–independent effects of anagliptin on NASH and HCC development.

    DOI: 10.1038/s41598-020-57935-6

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  5. Upregulation of cancer-associated gene expression in activated fibroblasts in a mouse model of non-alcoholic steatohepatitis Reviewed

    Asakawa Masahiro, Itoh Michiko, Suganami Takayoshi, Sakai Takeru, Kanai Sayaka, Shirakawa Ibuki, Yuan Xunmei, Hatayama Tomomi, Shimada Shu, Akiyama Yoshimitsu, Fujiu Katsuhito, Inagaki Yutaka, Manabe Ichiro, Yamaoka Shoji, Yamada Tetsuya, Tanaka Shinji, Ogawa Yoshihiro

    SCIENTIFIC REPORTS   Vol. 9 ( 1 ) page: 19601   2019.12

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    Language:Japanese   Publisher:Scientific Reports  

    Non-alcoholic steatohepatitis (NASH), characterized by chronic inflammation and fibrosis, is predicted to be the leading cause of cirrhosis and hepatocellular carcinoma (HCC) in the next decade. Although recent evidence suggests the importance of fibrosis as the strongest determinant of HCC development, the molecular mechanisms underlying NASH-induced carcinogenesis still remain unclear. Here we performed RNA sequencing analysis to compare gene expression profiles of activated fibroblasts prepared from two distinct liver fibrosis models: carbon tetrachloride–induced fibrosis as a model without obesity and HCC and genetically obese melanocortin 4 receptor–deficient (MC4R-KO) mice fed Western diet, which develop steatosis, NASH, and eventually HCC. Our data showed that activated fibroblasts exhibited distinct gene expression patterns in each etiology, and that the ‘pathways in cancer’ were selectively upregulated in the activated fibroblasts from MC4R-KO mice. The most upregulated gene in these pathways was fibroblast growth factor 9 (FGF9), which was induced by metabolic stress such as palmitate. FGF9 exerted anti-apoptotic and pro-migratory effects in fibroblasts and hepatoma cells in vitro and accelerated tumor growth in a subcutaneous xenograft model. This study reveals upregulation of cancer-associated gene expression in activated fibroblasts in NASH, which would contribute to the progression from NASH to HCC.

    DOI: 10.1038/s41598-019-56039-0

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  6. Obeticholic acid protects against hepatocyte death and liver fibrosis in a murine model of nonalcoholic steatohepatitis Reviewed

    Toshihiro Goto, Michiko Itoh, Takayoshi Suganami, Sayaka Kanai, Ibuki Shirakawa, Takeru Sakai, Masahiro Asakawa, Toshihiro Yoneyama, Toshihiro Kai, Yoshihiro Ogawa

    Scientific Reports   Vol. 8 ( 1 ) page: 8157   2018.5

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    Language:English   Publishing type:Research paper (scientific journal)   Publisher:Nature Publishing Group  

    Accumulating evidence has suggested that farnesoid X receptor (FXR) agonists, such as obeticholic acid (OCA) are therapeutically useful for non-Alcoholic steatohepatitis (NASH). However, it is still unclear how FXR agonists protect against NASH and which cell type is the main target of FXR agonists. In this study, we examined the effects of OCA on the development of NASH using melanocortin 4 receptor-deficient (MC4R-KO) mice that progressively developed hepatic steatosis and NASH on Western diet (WD). Treatment with OCA effectively prevented chronic inflammation and liver fibrosis in WD-fed MC4R-KO mice with only marginal effect on body weight and hepatic steatosis. Hepatic crown-like structure (hCLS) is a unique histological structure characteristic of NASH, which triggers hepatocyte death-induced interstitial fibrosis. Intriguingly, treatment with OCA markedly reduced hCLS formation even after MC4R-KO mice developed NASH, thereby inhibiting the progression of liver fibrosis. As its mechanism of action, OCA suppressed metabolic stress-induced p53 activation and cell death in hepatocytes. Our findings in this study highlight the role of FXR in hepatocytes in the pathogenesis of NASH. Collectively, this study demonstrates the anti-fibrotic effect of OCA in a murine model of NASH with obesity and insulin resistance, which suggests the clinical implication for human NASH.

    DOI: 10.1038/s41598-018-26383-8

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  7. CD11c+ resident macrophages drive hepatocyte death-triggered liver fibrosis in a murine model of nonalcoholic steatohepatitis. Reviewed

    Itoh M, Suganami T, Kato H, Kanai S, Shirakawa I, Sakai T, Goto T, Asakawa M, Hidaka I, Sakugawa H, Ohnishi K, Komohara Y, Asano K, Sakaida I, Tanaka M, Ogawa Y

    JCI insight   Vol. 2 ( 22 )   2017.11

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    Language:Japanese   Publishing type:Research paper (scientific journal)  

    DOI: 10.1172/jci.insight.92902

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  8. Synthetic "smart gel" provides glucose-responsive insulin delivery in diabetic mice Reviewed

    Akira Matsumoto, Miyako Tanaka, Hiroko Matsumoto, Kozue Ochi, Yuki Moro-oka, Hirohito Kuwata, Hironori Yamada, Ibuki Shirakawa, Taiki Miyazawa, Hitoshi Ishii, Kazunori Kataoka, Yoshihiro Ogawa, Yuji Miyahara, Takayoshi Suganami

    SCIENCE ADVANCES   Vol. 3 ( 11 ) page: eaaq0723   2017.11

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    Language:Japanese   Publishing type:Research paper (scientific journal)   Publisher:AMER ASSOC ADVANCEMENT SCIENCE  

    Although previous studies have attempted to create "electronics-free" insulin delivery systemsusing glucose oxidase and sugar-binding lectins as a glucose-sensingmechanism, no successful clinical translation has hitherto been made. These protein-based materials are intolerant of long-term use and storage because of their denaturing and/or cytotoxic properties. We provide a solution by designing a protein-free and totally synthetic material-based approach. Capitalizing on the sugar-responsive properties of boronic acid, we have established a synthetic polymer gel-based insulin delivery device confined within a single catheter, which exhibits an artificial pancreas-like function in vivo. Subcutaneous implantation of the device in healthy and diabetic mice establishes a closed-loop system composed of "continuous glucose sensing" and "skin layer"-regulated insulin release. As a result, glucose metabolism was controlled in response to interstitial glucose fluctuation under both insulin-deficient and insulin-resistant conditions with at least 3-week durability. Our "smart gel" technology could offer a user-friendly and remarkably economic (disposable) alternative to the current state of the art, thereby facilitating availability of effective insulin treatment not only to diabetic patients in developing countries but also to those patients who otherwise may not be strongly motivated, such as the elderly, infants, and patients in need of nursing care.

    DOI: 10.1126/sciadv.aaq0723

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  9. Hepatocyte death-triggered CD11c-positive macrophage accumulation induces liver fibrosis in a murine model of non-alcoholic steatohepatitis

    Itoh Michiko, Suganami Takayoshi, Kanai Sayaka, Shirakawa Ibuki, Sakai Takeru, Goto Toshihiro, Asakawa Masahiro, Hidaka Isao, Sakaida Isao, Ogawa Yoshihiro

    HEPATOLOGY   Vol. 66   page: 1052A-1052A   2017.10

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    Language:English   Publishing type:Research paper (scientific journal)  

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MISC 5

  1. The H3K9 methyltransferase Setdb1 regulates TLR4-mediated inflammatory responses in macrophages. Reviewed

    Hachiya R, Shiihashi T, Shirakawa I, Iwasaki Y, Matsumura Y, Oishi Y, Nakayama Y, Miyamoto Y, Manabe I, Ochi K, Tanaka M, Goda N, Sakai J, Suganami T, Ogawa Y

    Scientific reports   Vol. 6   page: 28845   2016.6

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    DOI: 10.1038/srep28845

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  2. Macrophage-inducible C-type lectin underlies obesity-induced adipose tissue fibrosis. Reviewed

    Tanaka M, Ikeda K, Suganami T, Komiya C, Ochi K, Shirakawa I, Hamaguchi M, Nishimura S, Manabe I, Matsuda T, Kimura K, Inoue H, Inagaki Y, Aoe S, Yamasaki S, Ogawa Y

    Nature communications   Vol. 5   page: 4982   2014.9

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    DOI: 10.1038/ncomms5982

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  3. Activating transcription factor 4 links metabolic stress to interleukin-6 expression in macrophages. Reviewed

    Iwasaki Y, Suganami T, Hachiya R, Shirakawa I, Kim-Saijo M, Tanaka M, Hamaguchi M, Takai-Igarashi T, Nakai M, Miyamoto Y, Ogawa Y

    Diabetes   Vol. 63 ( 1 ) page: 152-61   2014.1

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    DOI: 10.2337/db13-0757

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  4. Increased expression of macrophage-inducible C-type lectin in adipose tissue of obese mice and humans. Reviewed

    Ichioka M, Suganami T, Tsuda N, Shirakawa I, Hirata Y, Satoh-Asahara N, Shimoda Y, Tanaka M, Kim-Saijo M, Miyamoto Y, Kamei Y, Sata M, Ogawa Y

    Diabetes   Vol. 60 ( 3 ) page: 819-26   2011.3

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    DOI: 10.2337/db10-0864

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  5. Activating transcription factor 3 constitutes a negative feedback mechanism that attenuates saturated Fatty acid/toll-like receptor 4 signaling and macrophage activation in obese adipose tissue. Reviewed

    Suganami T, Yuan X, Shimoda Y, Uchio-Yamada K, Nakagawa N, Shirakawa I, Usami T, Tsukahara T, Nakayama K, Miyamoto Y, Yasuda K, Matsuda J, Kamei Y, Kitajima S, Ogawa Y

    Circulation research   Vol. 105 ( 1 ) page: 25-32   2009.7

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    DOI: 10.1161/CIRCRESAHA.109.196261

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