Researcher Profile and Settings

Researcher

• Name

  SUZUE KAZUTOMO

Affiliation

• Parasitology, Lecturer

Profile and Settings

• Name

  KAZUTOMO, SUZUE

Foreign language

• Use in presentation

  English

• Use in publication

  English

Affiliation

• Gunma University, Graduate School of Medicine, Associate Professor
• Gunma University, Graduate School of Medicine, Associate Professor

Affiliation

• Affiliation

  Graduate School of Medicine, International Parasitology

• Job title

  Lecturer

Education

• Osaka University, Graduate School of Medicine, PhD course
• Osaka University, Graduate School of Medicine, Master course for Medical Science
• Kyoto University, Faculty of Agriculture, Department of Food Science and Technology
• Koyo Gakuin High School

Degree

• PhD in Medicine
• PhD in Medicine
• PhD in Medicine, Osaka University

Association Memberships

• Japanese Society for Bacteriology

Research Experience

• Apr. 2009, Mar. 2018, Graduate School of Medicine, Gunma University, Department of Parasitology, Associate professor, Associate prof lecturer lv
• Apr. 2018, 9999, Graduate School of Medicine, Gunma University, Department of Infectious Diseases and Host Defense, Associate Professor, Associate prof lecturer lv
• Apr. 1998, Mar. 2001, JSPS Research fellowship for Young Scientists (PD), Keio University School of Medicine, Department of Microbiology and Immunology (Dr Koyasu Lab)
• Apr. 1995, Mar. 1998, JSPS Research fellowship for Young Scientists (DC1), Research Institute for Microbial Diseases, Department of Molecular Parasitology (Dr Horii Lab)
• Apr. 1998, Mar. 2001, Keio University School of Medicine, Department of Microbiology and Immunology (Dr Koyasu Lab), Postdoctoral Researcher, Researcher postdoc lv
• Apr. 2001, Apr. 2002, Gunma University School of Medicine, Department of Parasitology, Assistant Professor, Research assistance
• May 2002, Mar. 2003, Gunma University School of Medicine, Department of Parasitology, Associate Professor, Associate prof lecturer lv
• Apr. 2003, Mar. 2009, Graduate School of Medicine, Gunma University, Department of Parasitology, Associate Professor, Associate prof lecturer lv

Research Activities

Research Areas

• Life sciences, Parasitology, Parasitology
• Life sciences, Immunology, Immunology
• Life sciences, Bacteriology, Bacteriology

Research Interests

• Infection Immunity
• protozoa
• host immune response
• infectious disease
• vaccine
• malaria
• leishmania
• listeria
• transplantation
• allergy
• atopy
• contact dermatitis
• contact hypersensitivity
• autoimmunity
• autoimmune disease

Published Papers

• IL-23 protection against Plasmodium berghei infection in mice is partially dependent on IL-17 from macrophages., Hidekazu Ishida; Takashi Imai; Kazutomo Suzue; Makoto Hirai; Tomoyo Taniguchi; Akihiko Yoshimura; Yoichiro Iwakura; Hiroko Okada; Tomohisa Suzuki; Chikako Shimokawa; Hajime Hisaeda, Oct. 2013, European journal of immunology, 43, 10, 2696, 706, Scientific journal

  DOI
• Suppression of Obesity by an Intestinal Helminth through Interactions with Intestinal Microbiota., Chikako Shimokawa; Seiji Obi; Mioko Shibata; Alex Olia; Takashi Imai; Kazutomo Suzue; Hajime Hisaeda, Jun. 2019, Infection and immunity, 87, 6, Scientific journal

  DOI
• Fluctuations of Spleen Cytokine and Blood Lactate, Importance of Cellular Immunity in Host Defense Against Blood Stage Malaria Plasmodium yoelii., Takashi Imai; Kazutomo Suzue; Ha Ngo-Thanh; Suguri Ono; Wakako Orita; Haruka Suzuki; Chikako Shimokawa; Alex Olia; Seiji Obi; Tomoyo Taniguchi; Hidekazu Ishida; Luc Van Kaer; Shigeo Murata; Keiji Tanaka; Hajime Hisaeda, 2019, Frontiers in immunology, 10, 2207, 2207, Scientific journal

  DOI
• Critical role of dendritic cells in determining the Th1/Th2 balance upon Leishmania major infection., Kazutomo Suzue; Seiki Kobayashi; Tsutomu Takeuchi; Mamoru Suzuki; Shigeo Koyasu, Mar. 2008, International immunology, 20, 3, 337, 43, Scientific journal

  DOI
• A transient resistance to blood-stage malaria in interferon-γ-deficient mice through impaired production of the host cells preferred by malaria parasites., Hiroko Okada; Kazutomo Suzue; Takashi Imai; Tomoyo Taniguchi; Chikako Shimokawa; Risa Onishi; Jun Hirata; Hajime Hisaeda, 2015, Frontiers in microbiology, 6, JUN, 600, 600, Scientific journal

  DOI
• Differentiation of malignant tumours from granulomas by using dynamic [(18)F]-fluoro-L-α-methyltyrosine positron emission tomography., Aiko Yamaguchi; Hirofumi Hanaoka; Yutaka Fujisawa; Songji Zhao; Kazutomo Suzue; Akihiro Morita; Hideyuki Tominaga; Tetsuya Higuchi; Hajime Hisaeda; Yoshito Tsushima; Yuji Kuge; Yasuhiko Iida, 2015, EJNMMI research, 5, 1, 29, 29, Scientific journal

  DOI
• Plasmodium berghei ANKA causes intestinal malaria associated with dysbiosis., Tomoyo Taniguchi; Eiji Miyauchi; Shota Nakamura; Makoto Hirai; Kazutomo Suzue; Takashi Imai; Takahiro Nomura; Tadashi Handa; Hiroko Okada; Chikako Shimokawa; Risa Onishi; Alex Olia; Jun Hirata; Haruyoshi Tomita; Hiroshi Ohno; Toshihiro Horii; Hajime Hisaeda, 27 Oct. 2015, Scientific reports, 5, 15699, 15699, Scientific journal

  DOI
• Cytotoxic activities of CD8⁺ T cells collaborate with macrophages to protect against blood-stage murine malaria., Takashi Imai; Hidekazu Ishida; Kazutomo Suzue; Tomoyo Taniguchi; Hiroko Okada; Chikako Shimokawa; Hajime Hisaeda, 11 Mar. 2015, eLife, 4, 4, e04232, 49, Scientific journal

  DOI
• CD8(+) T cell activation by murine erythroblasts infected with malaria parasites., Takashi Imai; Hidekazu Ishida; Kazutomo Suzue; Makoto Hirai; Tomoyo Taniguchi; Hiroko Okada; Tomohisa Suzuki; Chikako Shimokawa; Hajime Hisaeda, 2013, Scientific reports, 3, 1572, 1572, Scientific journal

  DOI
• Resistance to malaria by enhanced phagocytosis of erythrocytes in LMP7-deficient mice., Xuefeng Duan; Takashi Imai; Bin Chou; Liping Tu; Kunisuke Himeno; Kazutomo Suzue; Makoto Hirai; Tomoyo Taniguchi; Hiroko Okada; Chikako Shimokawa; Hajime Hisaeda, 2013, PloS one, 8, 3, e59633, Scientific journal

  DOI
• Species-specific immunity induced by infection with Entamoeba histolytica and Entamoeba moshkovskii in mice., Chikako Shimokawa; Richard Culleton; Takashi Imai; Kazutomo Suzue; Makoto Hirai; Tomoyo Taniguchi; Seiki Kobayashi; Hajime Hisaeda; Shinjiro Hamano, 2013, PloS one, 8, 11, e82025, Scientific journal

  DOI
• Interleukin 12-dependent interferon gamma production by CD8alpha+ lymphoid dendritic cells., T Ohteki; T Fukao; K Suzue; C Maki; M Ito; M Nakamura; S Koyasu, 21 Jun. 1999, The Journal of experimental medicine, 189, 12, 1981, 6, Scientific journal

  DOI
• The murine stem cell virus promoter drives correlated transgene expression in the leukocytes and cerebellar Purkinje cells of transgenic mice., Miho Oue; Hiroshi Handa; Yasunori Matsuzaki; Kazutomo Suzue; Hirokazu Murakami; Hirokazu Hirai, 2012, PloS one, 7, 11, e51015, Scientific journal

  DOI
• NOD/SCID/gamma(c)(null) mouse: an excellent recipient mouse model for engraftment of human cells., Mamoru Ito; Hidefumi Hiramatsu; Kimio Kobayashi; Kazutomo Suzue; Mariko Kawahata; Kyoji Hioki; Yoshito Ueyama; Yoshio Koyanagi; Kazuo Sugamura; Kohichiro Tsuji; Toshio Heike; Tatsutoshi Nakahata, 01 Nov. 2002, Blood, 100, 9, 3175, 82, Scientific journal

  DOI
• In vivo role of IFN-gamma produced by antigen-presenting cells in early host defense against intracellular pathogens., Kazutomo Suzue; Takashi Asai; Tsutomu Takeuchi; Shigeo Koyasu, Oct. 2003, European journal of immunology, 33, 10, 2666, 75, Scientific journal

  DOI
• Evaluating experimental cerebral malaria using oxidative stress indicator OKD48 mice., Takashi Imai; Takao Iwawaki; Ryoko Akai; Kazutomo Suzue; Makoto Hirai; Tomoyo Taniguchi; Hiroko Okada; Hajime Hisaeda, Sep. 2014, International journal for parasitology, 44, 10, 681, 5, Scientific journal

  DOI
• Cranial irradiation induces bone marrow-derived microglia in adult mouse brain tissue., Noriyuki Okonogi; Kazuhiro Nakamura; Yoshiyuki Suzuki; Nana Suto; Kazutomo Suzue; Takuya Kaminuma; Takashi Nakano; Hirokazu Hirai, Jul. 2014, Journal of radiation research, 55, 4, 713, 9, Scientific journal

  DOI
• The Tol-Pal System of Uropathogenic Escherichia coli Is Responsible for Optimal Internalization Into and Aggregation Within Bladder Epithelial Cells, Colonization of the Urinary Tract of Mice, and Bacterial Motility., Hidetada Hirakawa; Kazutomo Suzue; Kumiko Kurabayashi; Haruyoshi Tomita, 2019, Frontiers in microbiology, 10, 1827, 1827, Scientific journal

  DOI
• Corrigendum: Plasmodium berghei ANKA causes intestinal malaria associated with dysbiosis., Tomoyo Taniguchi; Eiji Miyauchi; Shota Nakamura; Makoto Hirai; Kazutomo Suzue; Takashi Imai; Takahiro Nomura; Tadashi Handa; Hiroko Okada; Chikako Shimokawa; Risa Onishi; Alex Olia; Jun Hirata; Haruyoshi Tomita; Hiroshi Ohno; Toshihiro Horii; Hajime Hisaeda, 07 Jan. 2016, Scientific reports, 6, 17248, 17248, Scientific journal

  DOI
• Plasmodium berghei infection ameliorates atopic dermatitis-like skin lesions in NC/Nga mice., C Kishi; H Amano; K Suzue; O Ishikawa, Oct. 2014, Allergy, 69, 10, 1412, 9, Scientific journal

  DOI
• A critical role for phagocytosis in resistance to malaria in iron-deficient mice., Chikako Matsuzaki-Moriya; Liping Tu; Hidekazu Ishida; Takashi Imai; Kazutomo Suzue; Makoto Hirai; Kohhei Tetsutani; Shinjiro Hamano; Chikako Shimokawa; Hajime Hisaeda, May 2011, European journal of immunology, 41, 5, 1365, 75, Scientific journal

  DOI
• Development of experimental cerebral malaria is independent of IL-23 and IL-17., Hidekazu Ishida; Chikako Matsuzaki-Moriya; Takashi Imai; Kunio Yanagisawa; Yoshihisa Nojima; Kazutomo Suzue; Makoto Hirai; Yoichiro Iwakura; Akihiko Yoshimura; Shinjiro Hamano; Chikako Shimokawa; Hajime Hisaeda, 26 Nov. 2010, Biochemical and biophysical research communications, 402, 4, 790, 5, Scientific journal

  DOI
• Requirement of SIRPα for protective immunity against Leishmania major., Naoko Morimoto; Yoji Murata; Sei-ichiro Motegi; Kazutomo Suzue; Yasuyuki Saito; Hideki Okazawa; Hiroshi Ohnishi; Takenori Kotani; Shinya Kusakari; Osamu Ishikawa; Takashi Matozaki, 22 Oct. 2010, Biochemical and biophysical research communications, 401, 3, 385, 9, Scientific journal

  DOI
• A case of falciparum malaria successfully treated with maximum dose of mefloquine, Ryo Taguchi; Yasushi Mogami; Yuko Ohyama-Oku; Hiroko Sato; Yoshio Ohyama; Etsuo Kawada; Jun Ichi Tamura; Kazutomo Suzue; Tomoyoshi Nozaki, 01 Aug. 2008, Kitakanto Medical Journal, 58, 3, 311, 314, Scientific journal

  DOI
• [Dendritic cells and infection]., Kazutomo Suzue, Apr. 2005, Nihon rinsho. Japanese journal of clinical medicine, 63 Suppl 4, 27, 33, Scientific journal
• A case of vivax Malaria relapsed after atovaquone/proguanil therapy and chloroquine/primaquine therapy., 鈴江 一友, 2005, Clin. Parasitol, 15(1), 81-83
• A clinical case of Plasmodium vivax Malaria: The confirmation of mixed infection with P. falciparum by using dip-stick method., 鈴江 一友, 2005, Clin. Parasitol, 15(1), 78-80
• Critical role of IL-15-IL-15R for antigen-presenting cell functions in the innate immune response., T Ohteki; K Suzue; C Maki; T Ota; S Koyasu, Dec. 2001, Nature immunology, 2, 12, 1138, 43, Scientific journal

  DOI
• Critical role of NK but not NKT cells in acute rejection of parental bone marrow cells in F1 hybrid mice., K Suzue; E L Reinherz; S Koyasu, Nov. 2001, European journal of immunology, 31, 11, 3147, 52, Scientific journal

  DOI
• Natural human immunoglobulin G subclass responses to Plasmodium falciparum serine repeat antigen in Uganda., B A Okech; A Nalunkuma; D Okello; X L Pang; K Suzue; J Li; T Horii; T G Egwang, Dec. 2001, The American journal of tropical medicine and hygiene, 65, 6, 912, 7, Scientific journal

  DOI
• Protective immunity induced in squirrel monkeys with recombinant serine repeat antigen (SERA) of Plasmodium falciparum, Kazutomo Suzue; Mamoru Ito; Yoshitsugu Matsumoto; Yoshikuni Tanioka; Toshihiro Horii, 1997, Parasitology International, 46, 1, 17, 25, Scientific journal

  DOI
• Plasmodium falciparum: an epitope within a highly conserved region of the 47-kDa amino-terminal domain of the serine repeat antigen is a target of parasite-inhibitory antibodies., B A Fox; P Xing-Li; K Suzue; T Horii; D J Bzik, Feb. 1997, Experimental parasitology, 85, 2, 121, 34, Scientific journal

  DOI
• Production of recombinant SERA proteins of Plasmodium falciparum in Escherichia coli by using synthetic genes., T Sugiyama; K Suzue; M Okamoto; J Inselburg; K Tai; T Horii, Aug. 1996, Vaccine, 14, 11, 1069, 76, Scientific journal

  DOI
• Arf1 and Arf6 Synergistically Maintain Survival of T Cells during Activation., Mami Sumiyoshi; Yui Kotani; Yuki Ikuta; Kazutomo Suzue; Madoka Ozawa; Tomoya Katakai; Taketo Yamada; Takaya Abe; Kana Bando; Shigeo Koyasu; Yasunori Kanaho; Toshio Watanabe; Satoshi Matsuda, 11 Dec. 2020, Journal of immunology (Baltimore, Md. : 1950), 206, 2, 366, 375, Scientific journal

  DOI
• Blood-cerebrospinal fluid barrier: another site disrupted during experimental cerebral malaria caused by Plasmodium berghei ANKA., Ha Ngo-Thanh; Tsutomu Sasaki; Kazutomo Suzue; Hideaki Yokoo; Koji Isoda; Wataru Kamitani; Chikako Shimokawa; Hajime Hisaeda; Takashi Imai, Dec. 2020, International journal for parasitology, 50, 14, 1167, 1175, Scientific journal

  DOI
• Author Correction: CD8+ T cell activation by murine erythroblasts infected with malaria parasites., Takashi Imai; Hidekazu Ishida; Kazutomo Suzue; Makoto Hirai; Tomoyo Taniguchi; Hiroko Okada; Tomohisa Suzuki; Chikako Shimokawa; Hajime Hisaeda, 13 Nov. 2020, Scientific reports, 10, 1, 20195, 20195, Scientific journal

  DOI
• Roles of the Tol-Pal system in the Type III secretion system and flagella-mediated virulence in enterohemorrhagic Escherichia coli., Hidetada Hirakawa; Kazutomo Suzue; Ayako Takita; Chikako Awazu; Jun Kurushima; Haruyoshi Tomita, 23 Sep. 2020, Scientific reports, 10, 1, 15173, 15173, Scientific journal

  DOI
• Polyglutamine-containing microglia leads to disturbed differentiation and neurite retraction of neuron-like cells., Ryuji Owada; Saaya Awata; Kazutomo Suzue; Hiroyasu Kanetaka; Yohei Kakuta; Kazuhiro Nakamura, Sep. 2020, Heliyon, 6, 9, e04851, Scientific journal

  DOI
• IL-33 is essential to prevent high-fat diet-induced obesity in mice infected with an intestinal helminth., Seiji Obi; Chikako Shimokawa; Mizuki Katsuura; Alex Olia; Takashi Imai; Kazutomo Suzue; Hajime Hisaeda, Sep. 2020, Parasite immunology, 42, 9, e12700, Scientific journal

  DOI
• Potential and Limitations of Cross-Protective Vaccine against Malaria by Blood-Stage Naturally Attenuated Parasite., Takashi Imai; Kazutomo Suzue; Ha Ngo-Thanh; Chikako Shimokawa; Hajime Hisaeda, 11 Jul. 2020, Vaccines, 8, 3, Scientific journal

  DOI
• Suppression of systemic lupus erythematosus in NZBWF1 mice infected with Hymenolepis microstoma., Alex Olia; Chikako Shimokawa; Takashi Imai; Kazutomo Suzue; Hajime Hisaeda, Jun. 2020, Parasitology international, 76, 102057, 102057, Scientific journal

  DOI
• CD8+ regulatory T cells are critical in prevention of autoimmune-mediated diabetes., 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; Hajime Hisaeda, 22 Apr. 2020, Nature communications, 11, 1, 1922, 1922, Scientific journal

  DOI
• ALTERED GUT MICROBIOTA COMPOSITION IN PLASMODIUM FALCIPARUM PATIENTS IN UGANDA, Taniguchi Tomoyo; Miyauchi Eiji; Olia Alex; Nagayasu Eiji; Osbert Katuro; Suzue Kazutomo; Imai Takashi; Shimokawa Chikako; Onishi Risa; Odongo-Aginya Emmanuel I; Palacpac Nirianne; Maruyama Haruhiko; Kimura Eisaku; Mita Toshihiro; Ohno Hiroshi; Horii Toshihiro; Hisaeda Hajime, 2017, AMERICAN JOURNAL OF TROPICAL MEDICINE AND HYGIENE, 97, 5, 288, 288
• Critical role of dendritic cells in determining the T(h)1/T(h)2 balance upon Leishmania major infection, Suzue, Kazutomo;Kobayashi, Seiki;Takeuchi, Tsutomu;Suzuki, Mamoru;Koyasu, Shigeo, 2008, INTERNATIONAL IMMUNOLOGY, 20, 3, 337, 343

  DOI
• Requirement of SIRP alpha for protective immunity against Leishmania major, Morimoto, Naoko;Murata, Yoji;Motegi, Sei-ichiro;Suzue, Kazutomo;Saito, Yasuyuki;Okazawa, Hideki;Ohnishi, Hiroshi;Kotani, Takenori;Kusakari, Shinya;Ishikawa, Osamu;Matozaki, Takashi, 2010, BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS, 401, 3, 385, 389

  DOI
• Development of experimental cerebral malaria is independent of IL-23 and IL-17, Ishida, Hidekazu;Matsuzaki-Moriya, Chikako;Imai, Takashi;Yanagisawa, Kunio;Nojima, Yoshihisa;Suzue, Kazutomo;Hirai, Makoto;Iwakura, Yoichiro;Yoshimura, Akihiko;Hamano, Shinjiro;Shimokawa, Chikako;Hisaeda, Hajime, 2010, BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS, 402, 4, 790, 795

  DOI
• Resistance to Malaria by Enhanced Phagocytosis of Erythrocytes in LMP7-deficient Mice, Duan, Xuefeng;Imai, Takashi;Chou, Bin;Tu, Liping;Himeno, Kunisuke;Suzue, Kazutomo;Hirai, Makoto;Taniguchi, Tomoyo;Okada, Hiroko;Shimokawa, Chikako;Hisaeda, Hajime, 2013, PLOS ONE, 8, 3

  DOI
• Species-Specific Immunity Induced by Infection with Entamoeba histolytica and Entamoeba moshkovskii in Mice, Shimokawa, Chikako;Culleton, Richard;Imai, Takashi;Suzue, Kazutomo;Hirai, Makoto;Taniguchi, Tomoyo;Kobayashi, Seiki;Hisaeda, Hajime;Hamano, Shinjiro, 2013, PLOS ONE, 8, 11

  DOI
• IL-23 protection against Plasmodium berghei infection in mice is partially dependent on IL-17 from macrophages, Ishida, Hidekazu;Imai, Takashi;Suzue, Kazutomo;Hirai, Makoto;Taniguchi, Tomoyo;Yoshimura, Akihiko;Iwakura, Yoichiro;Okada, Hiroko;Suzuki, Tomohisa;Shimokawa, Chikako;Hisaeda, Hajime, 2013, EUROPEAN JOURNAL OF IMMUNOLOGY, 43, 10, 2696, 2706

  DOI
• Cranial irradiation induces bone marrow-derived microglia in adult mouse brain tissue, Okonogi, Noriyuki;Nakamura, Kazuhiro;Suzuki, Yoshiyuki;Suto, Nana;Suzue, Kazutomo;Kaminuma, Takuya;Nakano, Takashi;Hirai, Hirokazu, 2014, JOURNAL OF RADIATION RESEARCH, 55, 4, 713, 719

  DOI
• Evaluating experimental cerebral malaria using oxidative stress indicator OKD48 mice, Imai, Takashi;Iwawaki, Takao;Akai, Ryoko;Suzue, Kazutomo;Hirai, Makoto;Taniguchi, Tomoyo;Okada, Hiroko;Hisaeda, Hajime, 2014, INTERNATIONAL JOURNAL FOR PARASITOLOGY, 44, 10, 681, 685

  DOI
• Cytotoxic activities of CD8(+) T cells collaborate with macrophages to protect against blood-stage murine malaria, Imai, Takashi;Ishida, Hidekazu;Suzue, Kazutomo;Taniguchi, Tomoyo;Okada, Hiroko;Shimokawa, Chikako;Hisaeda, Hajime, 2015, ELIFE, 4

  DOI
• A transient resistance to blood-stage malaria in interferon-gamma-deficient mice through impaired production of the host cells preferred by malaria parasites, Okada, Hiroko;Suzue, Kazutomo;Imai, Takashi;Taniguchi, Tomoyo;Shimokawa, Chikako;Onishi, Risa;Hirata, Jun;Hisaeda, Hajime, 2015, FRONTIERS IN MICROBIOLOGY, 6

  DOI
• Differentiation of malignant tumours from granulomas by using dynamic [F-18]-fluoro-L-alpha-methyltyrosine positron emission tomography, Yamaguchi, Aiko;Hanaoka, Hirofumi;Fujisawa, Yutaka;Zhao, Songji;Suzue, Kazutomo;Morita, Akihiro;Tominaga, Hideyuki;Higuchi, Tetsuya;Hisaeda, Hajime;Tsushima, Yoshito;Kuge, Yuji;Iida, Yasuhiko, 2015, EJNMMI RESEARCH, 5

  DOI
• Plasmodium berghei ANKA causes intestinal malaria associated with dysbiosis, Taniguchi, Tomoyo;Miyauchi, Eiji;Nakamura, Shota;Hirai, Makoto;Suzue, Kazutomo;Imai, Takashi;Nomura, Takahiro;Handa, Tadashi;Okada, Hiroko;Shimokawa, Chikako;Onishi, Risa;Olia, Alex;Hirata, Jun;Tomita, Haruyoshi;Ohno, Hiroshi;Horii, Toshihiro;Hisaeda, Hajime, 2015, SCIENTIFIC REPORTS, 5

  DOI
• ALTERED GUT MICROBIOTA COMPOSITION IN PLASMODIUM FALCIPARUM PATIENTS IN UGANDA, Taniguchi, Tomoyo;Miyauchi, Eiji;Olia, Alex;Nagayasu, Eiji;Osbert, Katuro;Suzue, Kazutomo;Imai, Takashi;Shimokawa, Chikako;Onishi, Risa;Odongo-Aginya, Emmanuel I.;Palacpac, Nirianne;Maruyama, Haruhiko;Kimura, Eisaku;Mita, Toshihiro;Ohno, Hiroshi;Horii, Toshihiro;Hisaeda, Hajime, 2017, AMERICAN JOURNAL OF TROPICAL MEDICINE AND HYGIENE, 97, 5, 288, 288
• Suppression of Obesity by an Intestinal Helminth through Interactions with Intestinal Microbiota, Shimokawa, Chikako;Obi, Seiji;Shibata, Mioko;Olia, Alex;Imai, Takashi;Suzue, Kazutomo;Hisaeda, Hajime, 2019, INFECTION AND IMMUNITY, 87, 6

  DOI
• The Tol-Pal System of Uropathogenic Escherichia coli Is Responsible for Optimal Internalization Into and Aggregation Within Bladder Epithelial Cells, Colonization of the Urinary Tract of Mice, and Bacterial Motility, Hirakawa, Hidetada;Suzue, Kazutomo;Kurabayashi, Kumiko;Tomita, Haruyoshi, 2019, FRONTIERS IN MICROBIOLOGY, 10

  DOI
• Fluctuations of Spleen Cytokine and Blood Lactate, Importance of Cellular Immunity in Host Defense Against Blood Stage Malaria Plasmodium yoelii, Imai, Takashi;Suzue, Kazutomo;Ha Ngo-Thanh;Ono, Suguri;Orita, Wakako;Suzuki, Haruka;Shimokawa, Chikako;Olia, Alex;Obi, Seiji;Taniguchi, Tomoyo;Ishida, Hidekazu;Van Kaer, Luc;Murata, Shigeo;Tanaka, Keiji;Hisaeda, Hajime, 2019, FRONTIERS IN IMMUNOLOGY, 10

  DOI
• CD8(+) regulatory T cells are critical in prevention of autoimmune-mediated diabetes, Shimokawa, Chikako;Kato, Tamotsu;Takeuchi, Tadashi;Ohshima, Noriyasu;Furuki, Takao;Ohtsu, Yoshiaki;Suzue, Kazutomo;Imai, Takashi;Obi, Seiji;Olia, Alex;Izumi, Takashi;Sakurai, Minoru;Arakawa, Hirokazu;Ohno, Hiroshi;Hisaeda, Hajime, 2020, NATURE COMMUNICATIONS, 11, 1

  DOI
• IL-33 is essential to prevent high-fat diet-induced obesity in mice infected with an intestinal helminth, Obi, Seiji;Shimokawa, Chikako;Katsuura, Mizuki;Olia, Alex;Imai, Takashi;Suzue, Kazutomo;Hisaeda, Hajime, 2020, PARASITE IMMUNOLOGY, 42, 9

  DOI
• Roles of the Tol-Pal system in the Type III secretion system and flagella-mediated virulence in enterohemorrhagic Escherichia coli, Hirakawa, Hidetada;Suzue, Kazutomo;Takita, Ayako;Awazu, Chikako;Kurushima, Jun;Tomita, Haruyoshi, 2020, SCIENTIFIC REPORTS, 10, 1

  DOI
• Critical role of dendritic cells in determining the T_h1/T_h2 balance upon Leishmania major infection, SUZUE Kazutomo;KOBAYASHI Seiki;TAKEUCHI Tsutomu;SUZUKI Mamoru;KOYASU Shigeo, Mar. 2008, 20, 3, 337, 343
• 9. マラリア非特異的CD8+T細胞がマラリア病態を悪化させる（第54回北関東医学会総会抄録 一般演題）, 宇田川 麻衣;城下 卓也;吉田 仁典;山田 麻衣子;添野 祥子;鈴江 一友;鈴木 守, Aug. 2007, The Kitakanto medical journal, 57, 3, 300, 300
• A Case of Falciparum Malaria Successfully Treated with Maximum Dose of Mefloquine., Taguchi Ryo;Mogami Yasushi;Oku Yuko;Sato Hiroko;Ohyama Yoshio;Kawada Etsuo;Tamura Jun-ichi;Suzue Kazutomo;Nozaki Tomoyoshi, 2008, The Kitakanto Medical Journal, 58, 3, 311, 314
• [Dendritic cells and infection]., Suzue Kazutomo, Nihon rinsho. Japanese journal of clinical medicine, 63 Suppl 4
• ウガンダ国の熱帯熱マラリア患者において腸内細菌叢の変化が起こる, ;;;;;;;;;;;;;;;;, Nov. 2017, 2017, 192
• Requirement of SIRPα for protective immunity against Leishmania major., Morimoto Naoko;Murata Yoji;Motegi Sei-ichiro;Suzue Kazutomo;Saito Yasuyuki;Okazawa Hideki;Ohnishi Hiroshi;Kotani Takenori;Kusakari Shinya;Ishikawa Osamu;Matozaki Takashi, 18 Sep. 2010, Biochemical and biophysical research communications, 401, 3

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• CD8(+) T cell activation by murine erythroblasts infected with malaria parasites., Imai Takashi;Ishida Hidekazu;Suzue Kazutomo;Hirai Makoto;Taniguchi Tomoyo;Okada Hiroko;Suzuki Tomohisa;Shimokawa Chikako;Hisaeda Hajime, Scientific reports, 3

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• IL-23 protection against Plasmodium berghei infection in mice is partially dependent on IL-17 from macrophages., Ishida Hidekazu;Imai Takashi;Suzue Kazutomo;Hirai Makoto;Taniguchi Tomoyo;Yoshimura Akihiko;Iwakura Yoichiro;Okada Hiroko;Suzuki Tomohisa;Shimokawa Chikako;Hisaeda Hajime, 19 Aug. 2013, European journal of immunology, 43, 10

  DOI
• Cranial irradiation induces bone marrow-derived microglia in adult mouse brain tissue., Okonogi Noriyuki;Nakamura Kazuhiro;Suzuki Yoshiyuki;Suto Nana;Suzue Kazutomo;Kaminuma Takuya;Nakano Takashi;Hirai Hirokazu, 04 Apr. 2014, Journal of radiation research, 55, 4

  DOI
• Evaluating experimental cerebral malaria using oxidative stress indicator OKD48 mice., Imai Takashi;Iwawaki Takao;Akai Ryoko;Suzue Kazutomo;Hirai Makoto;Taniguchi Tomoyo;Okada Hiroko;Hisaeda Hajime, 01 Jul. 2014, International journal for parasitology, 44, 10

  DOI
• Cytotoxic activities of CD8⁺ T cells collaborate with macrophages to protect against blood-stage murine malaria., Imai Takashi;Ishida Hidekazu;Suzue Kazutomo;Taniguchi Tomoyo;Okada Hiroko;Shimokawa Chikako;Hisaeda Hajime, 11 Mar. 2015, eLife, 4

  DOI
• Differentiation of malignant tumours from granulomas by using dynamic [(18)F]-fluoro-L-α-methyltyrosine positron emission tomography., Yamaguchi Aiko;Hanaoka Hirofumi;Fujisawa Yutaka;Zhao Songji;Suzue Kazutomo;Morita Akihiro;Tominaga Hideyuki;Higuchi Tetsuya;Hisaeda Hajime;Tsushima Yoshito;Kuge Yuji;Iida Yasuhiko, 30 Apr. 2015, EJNMMI research, 5

  DOI
• A transient resistance to blood-stage malaria in interferon-γ-deficient mice through impaired production of the host cells preferred by malaria parasites., Okada Hiroko;Suzue Kazutomo;Imai Takashi;Taniguchi Tomoyo;Shimokawa Chikako;Onishi Risa;Hirata Jun;Hisaeda Hajime, 17 Jun. 2015, Frontiers in microbiology, 6

  DOI
• Plasmodium berghei ANKA causes intestinal malaria associated with dysbiosis., Taniguchi Tomoyo;Miyauchi Eiji;Nakamura Shota;Hirai Makoto;Suzue Kazutomo;Imai Takashi;Nomura Takahiro;Handa Tadashi;Okada Hiroko;Shimokawa Chikako;Onishi Risa;Olia Alex;Hirata Jun;Tomita Haruyoshi;Ohno Hiroshi;Horii Toshihiro;Hisaeda Hajime, 27 Oct. 2015, Scientific reports, 5

  DOI
• Suppression of Obesity by an Intestinal Helminth through Interactions with Intestinal Microbiota., Shimokawa Chikako;Obi Seiji;Shibata Mioko;Olia Alex;Imai Takashi;Suzue Kazutomo;Hisaeda Hajime, 21 May 2019, Infection and immunity, 87, 6

  DOI
• The Tol-Pal System of Uropathogenic Escherichia coli Is Responsible for Optimal Internalization Into and Aggregation Within Bladder Epithelial Cells, Colonization of the Urinary Tract of Mice, and Bacterial Motility., Hirakawa Hidetada;Suzue Kazutomo;Kurabayashi Kumiko;Tomita Haruyoshi, 07 Aug. 2019, Frontiers in microbiology, 10

  DOI
• Fluctuations of Spleen Cytokine and Blood Lactate, Importance of Cellular Immunity in Host Defense Against Blood Stage Malaria Plasmodium yoelii., Imai Takashi;Suzue Kazutomo;Ngo-Thanh Ha;Ono Suguri;Orita Wakako;Suzuki Haruka;Shimokawa Chikako;Olia Alex;Obi Seiji;Taniguchi Tomoyo;Ishida Hidekazu;Van Kaer Luc;Murata Shigeo;Tanaka Keiji;Hisaeda Hajime, 25 Sep. 2019, Frontiers in immunology, 10

  DOI
• Suppression of systemic lupus erythematosus in NZBWF1 mice infected with Hymenolepis microstoma., Olia Alex;Shimokawa Chikako;Imai Takashi;Suzue Kazutomo;Hisaeda Hajime, 16 Jan. 2020, Parasitology international, 76, Scientific journal

  DOI
• IL-33 is essential to prevent high-fat diet-induced obesity in mice infected with an intestinal helminth., Obi Seiji;Shimokawa Chikako;Katsuura Mizuki;Olia Alex;Imai Takashi;Suzue Kazutomo;Hisaeda Hajime, 16 Jun. 2020, Parasite immunology, 42, 9, Scientific journal

  DOI
• CD8+ regulatory T cells are critical in prevention of autoimmune-mediated diabetes., Shimokawa Chikako;Kato Tamotsu;Takeuchi Tadashi;Ohshima Noriyasu;Furuki Takao;Ohtsu Yoshiaki;Suzue Kazutomo;Imai Takashi;Obi Seiji;Olia Alex;Izumi Takashi;Sakurai Minoru;Arakawa Hirokazu;Ohno Hiroshi;Hisaeda Hajime, 22 Apr. 2020, Nature communications, 11, 1, Scientific journal

  DOI
• Potential and Limitations of Cross-Protective Vaccine against Malaria by Blood-Stage Naturally Attenuated Parasite., Imai Takashi;Suzue Kazutomo;Ngo-Thanh Ha;Shimokawa Chikako;Hisaeda Hajime, 11 Jul. 2020, Vaccines, 8, 3, Scientific journal

  DOI
• Blood-cerebrospinal fluid barrier: another site disrupted during experimental cerebral malaria caused by Plasmodium berghei ANKA., Ngo-Thanh Ha;Sasaki Tsutomu;Suzue Kazutomo;Yokoo Hideaki;Isoda Koji;Kamitani Wataru;Shimokawa Chikako;Hisaeda Hajime;Imai Takashi, 01 Sep. 2020, International journal for parasitology, 50, 14, Scientific journal

  DOI
• Polyglutamine-containing microglia leads to disturbed differentiation and neurite retraction of neuron-like cells., Owada Ryuji;Awata Saaya;Suzue Kazutomo;Kanetaka Hiroyasu;Kakuta Yohei;Nakamura Kazuhiro, 06 Sep. 2020, Heliyon, 6, 9, Scientific journal

  DOI
• Roles of the Tol-Pal system in the Type III secretion system and flagella-mediated virulence in enterohemorrhagic Escherichia coli., Hirakawa Hidetada;Suzue Kazutomo;Takita Ayako;Awazu Chikako;Kurushima Jun;Tomita Haruyoshi, 23 Sep. 2020, Scientific reports, 10, 1, Scientific journal

  DOI
• 腸管出血性大腸菌(EHEC)O157の腸管病原性におけるTol-Palシステムの役割, ;;;;, Aug. 2020, 70, 3, 298
• A critical role for phagocytosis in resistance to malaria in iron-deficient mice, Matsuzaki-Moriya, Chikako;Tu, Liping;Ishida, Hidekazu;Imai, Takashi;Suzue, Kazutomo;Hirai, Makoto;Tetsutani, Kohhei;Hamano, Shinjiro;Shimokawa, Chikako;Hisaeda, Hajime, 2011, EUROPEAN JOURNAL OF IMMUNOLOGY, 41, 5, 1365, 1375

  DOI
• The Murine Stem Cell Virus Promoter Drives Correlated Transgene Expression in the Leukocytes and Cerebellar Purkinje Cells of Transgenic Mice, Oue, Miho;Handa, Hiroshi;Matsuzaki, Yasunori;Suzue, Kazutomo;Murakami, Hirokazu;Hirai, Hirokazu, 2012, PLOS ONE, 7, 11

  DOI
• CD8(+) T cell activation by murine erythroblasts infected with malaria parasites, Imai, Takashi;Ishida, Hidekazu;Suzue, Kazutomo;Hirai, Makoto;Taniguchi, Tomoyo;Okada, Hiroko;Suzuki, Tomohisa;Shimokawa, Chikako;Hisaeda, Hajime, 2013, SCIENTIFIC REPORTS, 3

  DOI
• Suppression of systemic lupus erythematosus in NZBWF1 mice infected with Hymenolepis microstoma, Olia, Alex;Shimokawa, Chikako;Imai, Takashi;Suzue, Kazutomo;Hisaeda, Hajime, 2020, PARASITOLOGY INTERNATIONAL, 76

  DOI
• Polyglutamine-containing microglia leads to disturbed differentiation and neurite retraction of neuron-like cells, Owada, Ryuji;Awata, Saaya;Suzue, Kazutomo;Kanetaka, Hiroyasu;Kakuta, Yohei;Nakamura, Kazuhiro, 2020, HELIYON, 6, 9

  DOI
• Potential and Limitations of Cross-Protective Vaccine against Malaria by Blood-Stage Naturally Attenuated Parasite, Imai, Takashi;Suzue, Kazutomo;Ha Ngo-Thanh;Shimokawa, Chikako;Hisaeda, Hajime, 2020, VACCINES, 8, 3

  DOI
• Blood-cerebrospinal fluid barrier: another site disrupted during experimental cerebral malaria caused by Plasmodium berghei ANKA, Ha Ngo-Thanh;Sasaki, Tsutomu;Suzue, Kazutomo;Yokoo, Hideaki;Isoda, Koji;Kamitani, Wataru;Shimokawa, Chikako;Hisaeda, Hajime;Imai, Takashi, 2020, INTERNATIONAL JOURNAL FOR PARASITOLOGY, 50, 14, 1167, 1175

  DOI
• 腸管出血性大腸菌(EHEC)の病原性因子Tol/Palシステムの解析, ;;;;, Aug. 2020, 34回, 40
• 腸管出血性大腸菌(EHEC)O157の腸管病原性におけるTol-Palシステムの役割, ;;;;, Aug. 2020, 70, 3, 298
• 腸管出血性大腸菌の病原性におけるTol-Palシステムの役割, ;;;;, Jan. 2021, 69, 1, 89
• 腸管出血性大腸菌(EHEC)の病原性因子Tol/Palシステムの解析, ;;;;, Jun. 2021, 34, 43
• マクロ孔型の多孔質炭素は、腸管出血性大腸菌の病原性を抑制する, ;;;;, Feb. 2022, 77, 1, 90
• The murine stem cell virus promoter drives correlated transgene expression in the leukocytes and cerebellar Purkinje cells of transgenic mice., Oue Miho;Handa Hiroshi;Matsuzaki Yasunori;Suzue Kazutomo;Murakami Hirokazu;Hirai Hirokazu, Nov. 2012, PloS one, 7, 11

  DOI
• Author Correction: CD8+ T cell activation by murine erythroblasts infected with malaria parasites., Imai Takashi;Ishida Hidekazu;Suzue Kazutomo;Hirai Makoto;Taniguchi Tomoyo;Okada Hiroko;Suzuki Tomohisa;Shimokawa Chikako;Hisaeda Hajime, Nov. 2020, Scientific reports, 10, 1

  DOI
• Arf1 and Arf6 Synergistically Maintain Survival of T Cells during Activation., Sumiyoshi Mami;Kotani Yui;Ikuta Yuki;Suzue Kazutomo;Ozawa Madoka;Katakai Tomoya;Yamada Taketo;Abe Takaya;Bando Kana;Koyasu Shigeo;Kanaho Yasunori;Watanabe Toshio;Matsuda Satoshi, Dec. 2020, Journal of immunology (Baltimore, Md. : 1950), 206, 2, Scientific journal

  DOI
• Long-term acrylamide exposure exacerbates brain and lung pathology in a mouse malaria model., Ngo-Thanh Ha;Thuy Trang Dam;Suzue Kazutomo;Kamitani Wataru;Yokoo Hideaki;Isoda Koji;Shimokawa Chikako;Hisaeda Hajime;Imai Takashi, Mar. 2021, Food and chemical toxicology : an international journal published for the British Industrial Biological Research Association, 151, Scientific journal

  DOI
• Roles of OmpX, an Outer Membrane Protein, on Virulence and Flagellar Expression in Uropathogenic Escherichia coli., Hirakawa Hidetada;Suzue Kazutomo;Takita Ayako;Kamitani Wataru;Tomita Haruyoshi, May 2021, Infection and immunity, 89, 6, Scientific journal

  DOI
• Roles of OmpA in Type III Secretion System-Mediated Virulence of Enterohemorrhagic Escherichia coli., Hirakawa Hidetada;Suzue Kazutomo;Takita Ayako;Tomita Haruyoshi, Nov. 2021, Pathogens (Basel, Switzerland), 10, 11, Scientific journal

  DOI
• Roles of the Tol/Pal System in Bacterial Pathogenesis and Its Application to Antibacterial Therapy., Hirakawa Hidetada;Suzue Kazutomo;Tomita Haruyoshi, Mar. 2022, Vaccines, 10, 3, Scientific journal

  DOI
• A Macroporous Magnesium Oxide-Templated Carbon Adsorbs Shiga Toxins and Type III Secretory Proteins in Enterohemorrhagic Escherichia coli, Which Attenuates Virulence., Hirakawa Hidetada;Suzue Kazutomo;Uchida Motoyuki;Takita Ayako;Kamitani Wataru;Tomita Haruyoshi, May 2022, Frontiers in microbiology, 13, Scientific journal

  DOI
• Live Vaccination with Blood-Stage Plasmodium yoelii 17XNL Prevents the Development of Experimental Cerebral Malaria., Imai Takashi;Ngo-Thanh Ha;Suzue Kazutomo;Shimo Aoi;Nakamura Akihiro;Horiuchi Yutaka;Hisaeda Hajime;Murakami Takashi, May 2022, Vaccines, 10, 5, Scientific journal

  DOI
• Dendritic cell subsets and its role in immunity and tolerance, 鈴江 一友, Oct. 2011, 55, 11, 1081, 1089

  DOI
• TusDCB, a sulfur transferase complex involved in tRNA modification, contributes to UPEC pathogenicity., Yumika Sato; Ayako Takita; Kazutomo Suzue; Yusuke Hashimoto; Suguru Hiramoto; Masami Murakami; Haruyoshi Tomita; Hidetada Hirakawa, 18 Apr. 2024, Scientific reports, 14, 1, 8978, 8978, Scientific journal

  DOI
• The PapB/FocB family protein TosR acts as a positive regulator of flagellar expression and is required for optimal virulence of uropathogenic Escherichia coli., Hidetada Hirakawa; Mizuki Shimokawa; Koshi Noguchi; Minori Tago; Hiroshi Matsuda; Ayako Takita; Kazutomo Suzue; Hirotaka Tajima; Ikuro Kawagishi; Haruyoshi Tomita, 2023, Frontiers in microbiology, 14, 1185804, 1185804, Scientific journal

  DOI
• Live Vaccination with Blood-Stage Plasmodium yoelii 17XNL Prevents the Development of Experimental Cerebral Malaria, Takashi Imai; Ha Ngo-Thanh; Kazutomo Suzue; Aoi Shimo; Akihiro Nakamura; Yutaka Horiuchi; Hajime Hisaeda; Takashi Murakami, 11 May 2022, Vaccines, 10, 5, Scientific journal

  DOI
• Roles of the Tol/Pal System in Bacterial Pathogenesis and Its Application to Antibacterial Therapy, Hidetada Hirakawa; Kazutomo Suzue; Haruyoshi Tomita, 10 Mar. 2022, Vaccines, 10, 3, Scientific journal

  DOI
• A Macroporous Magnesium Oxide-Templated Carbon Adsorbs Shiga Toxins and Type III Secretory Proteins in Enterohemorrhagic Escherichia coli, Which Attenuates Virulence., Hidetada Hirakawa; Kazutomo Suzue; Motoyuki Uchida; Ayako Takita; Wataru Kamitani; Haruyoshi Tomita, 2022, Frontiers in microbiology, 13, 883689, 883689, Scientific journal

  DOI
• Roles of OmpA in Type III Secretion System-Mediated Virulence of Enterohemorrhagic Escherichia coli, Hidetada Hirakawa; Kazutomo Suzue; Ayako Takita; Haruyoshi Tomita, 17 Nov. 2021, Pathogens, 10, 11, 1496, 1496, Scientific journal

  DOI
• Long-term acrylamide exposure exacerbates brain and lung pathology in a mouse malaria model., Ha Ngo-Thanh; Trang Dam Thuy; Kazutomo Suzue; Wataru Kamitani; Hideaki Yokoo; Koji Isoda; Chikako Shimokawa; Hajime Hisaeda; Takashi Imai, May 2021, Food and chemical toxicology : an international journal published for the British Industrial Biological Research Association, 151, 112132, 112132, Scientific journal

  DOI
• Roles of OmpX, an outer membrane protein on virulence and flagellar expression in uropathogenic Escherichia coli., Hidetada Hirakawa; Kazutomo Suzue; Ayako Takita; Wataru Kamitani; Haruyoshi Tomita, 22 Mar. 2021, Infection and immunity, 89, 6, Scientific journal

  DOI
• P71W5-5 Dendritic cells determine Th1/Th2 response in experimental leishmaniasis, SUZUE Kazutomo; KOBAYASHI Seiki; TAKEUCHI Tsutomu; KOYASU Shigeo, 2001, Medical Entomology and Zoology, 52, Supplement, 95, 95

  DOI
• The PapB/FocB family protein TosR acts as a positive regulator of flagellar expression and is required for optimal virulence of uropathogenic Escherichia coli, Hirakawa, Hidetada;Shimokawa, Mizuki;Noguchi, Koshi;Tago, Minori;Matsuda, Hiroshi;Takita, Ayako;Suzue, Kazutomo;Tajima, Hirotaka;Kawagishi, Ikuro;Tomita, Haruyoshi, 2023, FRONTIERS IN MICROBIOLOGY, 14

  DOI
• The PapB/FocB family protein TosR acts as a positive regulator of flagellar expression and is required for optimal virulence of uropathogenic Escherichia coli., Hirakawa Hidetada;Shimokawa Mizuki;Noguchi Koshi;Tago Minori;Matsuda Hiroshi;Takita Ayako;Suzue Kazutomo;Tajima Hirotaka;Kawagishi Ikuro;Tomita Haruyoshi, Jul. 2023, Frontiers in microbiology, 14

  DOI
• 尿路病原性大腸菌(UPEC)の膀胱上皮細胞感染とマイクロコロニー形成における蛋白質TusDCBの役割, ;;;;;;;, Aug. 2023, 73, 3, 256

MISC

• ウガンダ国の熱帯熱マラリア患者において腸内細菌叢の変化が起こる, 谷口 委代; 宮内 栄治; Olia Alex; 長安 英治; Osbert Katuro; 鈴江 一友; 今井 孝; 下川 周子; 大西 里咲; Odongo-Aginya E.I; Palacpac Nirianne; 丸山 治彦; 木村 英作; 美田 敏宏; 大野 博司; 堀井 俊宏; 久枝 一, Nov. 2017, グローバルヘルス合同大会プログラム・抄録集, 2017, 192, 192
• A critical role for phagocytosis in resistance to malaria in iron-deficient mice (vol 41, pg 1365, 2011), Chikako Matsuzaki-Moriya; Liping Tu; Hidekazu Ishida; Takashi Imai; Kazutomo Suzue; Makoto Hirai; Kohhei Tetsutani; Shinjiro Hamano; Chikako Shimokawa; Hajime Hisaeda, Jul. 2011, EUROPEAN JOURNAL OF IMMUNOLOGY, 41, 7, 2123, 2123, Others

  DOI
• Functions of dendritic cells in innate immunity., 小安重夫; 樗木俊聡; 深尾太郎; 鈴江一友, Jun. 2000, 月刊細胞, 32, 6, 212, 215, Introduction scientific journal
• Influence of genetic background on an early innate immune response and subsequent Th1 development., 樗木俊聡; 鈴江一友; 牧稚佳子; 小安重夫, Oct. 1999, 医学のあゆみ, 119, 112, Introduction scientific journal
• 第58回北関東医学会総会抄録, 今井 孝; 石田 英和; 平井 誠; 鈴江 一友; 久枝 一, 01 Aug. 2011, 61, 3, 458, 458
• 新たに開発したNOD/Shi-scid,γc nullマウスの移入ヒト細胞の高生着性とその免疫学的特性について, 伊藤 守; 小林 喜美男; 川幡 まりこ; 日置 恭司; 鈴江 一友; 小柳 義夫; 菅村 和夫; 平松 英文; 平家 俊男; 中畑 龍俊, Dec. 2001, 日本免疫学会総会・学術集会記録, 31, 256, 256
• アクリルアミドの長期間曝露は,マウスマラリアモデルにおいて脳と肺の病態を悪化させる。, NGO-THANH Ha; NGO-THANH Ha; TRANG D Thuy; 鈴江一友; 横尾英明; 礒田浩二; 下川周子; 久枝一; 今井孝; 今井孝; 今井孝; 今井孝, 2024, 93rd
• The role of TusDCB, a sulfur transferase complex on pathogenesis and microcolony formation in UPEC, 佐藤百美佳; 滝田綾子; 鈴江一友; 橋本佑輔; 平本卓; 村上正巳; 富田治芳; 平川秀忠, 2024, 日本細菌学雑誌(Web), 79, 2
• Blood-cerebrospinal fluid barrier was disrupted in experimental cerebral malaria., HA Ngo-Thanh; 佐々木努; 鈴江一友; 横尾英明; 磯田浩二; 神谷亘; 下川周子; 久枝一; 今井孝, 2023, 日本寄生虫学会大会プログラム・抄録集, 92nd
• Asymmetric total synthesis of natural enantiomers of shagenes and evaluation of synthetic analogues, 伊藤響; 入江一浩; 塚野千尋; 鈴江一友, 2023, 日本農芸化学会大会講演要旨集(Web), 2023
• 尿路病原性大腸菌(UPEC)の膀胱上皮細胞感染とマイクロコロニー形成における蛋白質TusDCBの役割, 佐藤百美佳; 平川秀忠; 滝田綾子; 鈴江一友; 橋本佑輔; 平本卓; 村上正巳; 富田治芳, 2023, 70th
• Asymmetric total synthesis of shagenes and synthesis of its analogues, 伊藤響; 鈴江一友; 入江一浩; 塚野千尋, 2023, 複素環化学討論会講演要旨集, 52nd (CD-ROM)
• A microporous carbon suppresses virulence of Enterohemorrhagic Escherichia coli, 平川秀忠; 鈴江一友; 滝田綾子; 神谷亘; 富田治芳; 富田治芳, 2022, 日本細菌学雑誌(Web), 77, 1
• Analysis of the Tol/Pal system that is associated with the pathogenesis of enterohemorrhagic E. coli (EHEC), 平川秀忠; 鈴江一友; 滝田綾子; 粟津周子; 富田治芳; 富田治芳, 2021, Bacterial Adherence & Biofilm, 34
• Molecular mechanisms underlying enhanced apoptosis in Arf1/6-deficient T cells upon TCR stimulation., 住吉麻実; 小谷唯; 小谷唯; 笹田萌未; 笹田萌未; 鈴江一友; 金保安則; 渡邊利雄; 渡邊利雄; 松田達志, 2021, 日本分子生物学会年会プログラム・要旨集(Web), 44th
• 腸管出血性大腸菌(EHEC)O157の腸管病原性におけるTol-Palシステムの役割, 平川秀忠; 鈴江一友; 滝田綾子; 粟津周子; 富田治芳; 富田治芳, 2020, 67th
• 腸管出血性大腸菌(EHEC)の病原性因子Tol/Palシステムの解析, 平川秀忠; 鈴江一友; 滝田綾子; 粟津周子; 富田治芳; 富田治芳, 2020, 34th
• ネズミマラリア原虫感染における病態形成への腸内細菌の関与, 谷口委代; 谷口委代; 鈴江一友; 今井孝; 下川周子; OLIA Alex; THANHHA Ngo; 久枝一, 2019, 88th
• 熱帯熱マラリア患者における腸内細菌の変動, 宮内栄治; 谷口委代; OLIA Alex; 長安英治; OSBERT Katuro; 鈴江一友; 今井孝; 下川周子; 下川周子; 大西里咲; ODONGO-AGINYA E.I.; PALACPAC Nirianne; 丸山治彦; 木村英作; 美田敏宏; 堀井俊宏; 久枝一; 大野博司; 大野博司, 2019, 42nd
• CD8T細胞は細胞傷害性分子によりマクロファージと協調してマウス赤内期マラリア感染防御に働く, 今井孝; 石田英和; 鈴江一友; 谷口委代; 岡田紘子; 下川周子; 久枝一, 2019, 88th
• ネズミマラリア原虫感染における免疫応答への腸内細菌の影響, 谷口委代; 谷口委代; 鈴江一友; 今井孝; 下川周子; OLIA Alex; 久枝一, 2018, 87th
• ネズミマラリア原虫感染により腸内細菌バランス失調が起こる, 谷口委代; 谷口委代; 宮内栄治; 中村昇太; 平井誠; 鈴江一友; 今井孝; 岡田紘子; 下川周子; 大西里咲; OLIA Alex; 大野博司; 堀井俊宏; 久枝一, 2016, 85th
• ネズミマラリアにおける腸管病変と腸内細菌叢の変化, 谷口委代; 谷口委代; 宮内栄治; 中村昇太; 平井誠; 鈴江一友; 今井孝; 岡田紘子; 大野博司; 堀井俊宏; 久枝一, 2015, 84th
• マラリア感染宿主における皮膚炎症状軽快化の分子メカニズム, 鈴江一友; 平井誠; 今井孝; 谷口委代; 岡田紘子; 小安重夫; 久枝一, 2015, 84th
• ネズミマラリアにおける腸内細菌叢の劇的な変化, 谷口委代; 谷口委代; 宮内栄治; 中村昇太; 平井誠; 鈴江一友; 今井孝; 岡田紘子; 大野博司; 堀井俊宏; 久枝一, 2014, 83rd
• 酸化ストレス可視化マウスを用いた脳マラリアの新しい評価法, 今井孝; 岩脇隆夫; 赤井良子; 鈴江一友; 平井誠; 谷口委代; 岡田紘子; 久枝一, 2014, 83rd
• 細胞外ATPがマラリア貧血を促進する, 鈴江一友; 平井誠; 今井孝; 谷口委代; 岡田紘子; 小安重夫; 久枝一, 2014, 83rd
• 比較トランスクリプトームによるマラリア原虫受精関連因子の探索, 平井誠; 新井明治; 安彦真文; 本間一; 岡本龍史; 鈴江一友; 今井孝; 谷口委代; 堀井俊宏; 田邉和裄; 久枝一, 2014, 83rd
• 感染症症候群(第2版)上 病原体別感染症編 VI 原虫症,寄生虫症 原虫症 リーシュマニア症, 鈴江一友, 2013
• 腫瘍と肉芽腫の鑑別診断におけるDynamic[¹⁸F]-Fluoro-L-α-methyltyrosine(¹⁸F-FAMT)-PETの有用性, 山口藍子; 飯田靖彦; 飯田靖彦; 藤澤豊; 稲本沙季; 趙松吉; 鈴江一友; 富永英之; 樋口徹也; 久枝一; 久下裕司; 対馬義人, 2013, 50, 3
• 超加速変異型ネズミマラリア原虫の創出と,その順遺伝学への応用, 平井誠; 本間一; 中村昇太; 後藤直久; 美田敏宏; 鈴江一友; 今井孝; 松岡裕之; 安永照雄; 古澤満; 堀井俊宏; 久枝一; 田邉和裄, 2012, 81st
• アトピー性皮膚炎モデルマウスにおけるマラリア感染時の皮膚症状の改善メカニズム, 岸史子; 天野博雄; 鈴江一友; 石川治, 2012, 6, 3
• マラリア感染時における他感染症に対する防御能への影響, 鈴江一友; CONG Yue; 平井誠; 今井孝; 谷口委代; 岡田紘子; 小安重夫; 鈴木守; 久枝一, 2012, 81st
• マラリア原虫は赤芽球に感染しCD8T細胞を活性化する, 今井孝; 石田英和; 鈴江一友; 平井誠; 谷口委代; 岡田紘子; 鈴木智久; 岩永史朗; 久枝一, 2012, 81st
• 比較トランスクリプトームによるマラリア原虫受精因子の探索, 平井誠; 安彦真文; 岡本龍司; 本間一; 鈴江一友; 今井孝; 堀井俊宏; 田邉和裄; 久枝一, 2012, 72nd
• マラリア原虫は赤芽球に感染しCD8T細胞を活性化する, 今井孝; 石田英和; 鈴江一友; 平井誠; 谷口委代; 岡田紘子; 鈴木智久; 下川周子; 久枝一, 2012, 72nd
• Dendritic cell subsets and its role in immunity and tolerance, 鈴江一友, 2011, 55, 11, 1081, 1089

  DOI
• マラリア感染に伴う免疫修飾の影響, 鈴江一友; 宇田川麻衣; 北村裕太; 久枝一; 小安重夫; 鈴木守, 2010, 79th
• マラリア原虫非特異的CD8⁺T細胞によってもたらされる宿主生存期間の短縮, 鈴江一友; 宇田川麻衣; 添野祥子; 小安重夫; 鈴木守, 2008, 77th
• 感染における樹状細胞の作用 1.リーシュマニア原虫と樹状細胞, 鈴江一友; 小安重夫, 2008, 26, 20
• 9. マラリア非特異的CD8^+ T細胞がマラリア病態を悪化させる(一般演題,第54回北関東医学会総会抄録), 宇田川 麻衣; 城下 卓也; 吉田 仁典; 山田 麻衣子; 添野 祥子; 鈴江 一友; 鈴木 守, 01 Aug. 2007, 57, 3, 300, 300
• ヒト免疫系を構築したマウスによるマラリアワクチン開発の技術基盤確立, 鈴江一友, 2007, 21
• 感染宿主に悪影響を与えるマラリア非特異的T細胞の活性化メカニズム, 鈴江一友; 宇田川麻衣; 城下卓也; 西森まどか; 小安重夫; 鈴木守, 2007, 76th
• マラリアにおいてT細胞は宿主にとって有益か?, 鈴江一友; 城下卓也; 東陽子; 山田麻衣子; 宇田川麻衣; 西森まどか; 小安重夫; 鈴木守, 2006, 75th
• 重症化マラリア貧血におけるT細胞の重要性, 西森まどか; 小安重夫; 鈴木守; 鈴江一友, 2006, 75th
• 三日熱マラリアの1例-ディップスティック法応用による混合感染有無の確認-, 鈴江一友; 鈴木守; 田村遵一, 2005, 15, 1
• Atovaquone/proguanil療法,およびChloroquine/primaquine療法後にそれぞれ再発を認めた三日熱マラリア感染の1例, 田村遵一; 坂本浩之助; 藤田欣一; 鈴江一友; 鈴木守, 2005, 15, 1
• Plasmodium感染におけるT細胞が及ぼす負の効果, 城下卓也; 鈴江一友; 西森まどか; 小安重夫; 鈴木守, 2005, 74th
• マラリア防御免疫におけるT細胞の重要性, 鈴江一友; 渡邉玲子; 西森まどか; 城下卓也; 小安重夫; 鈴木守, 2005, 74th
• 樹状細胞と感染免疫, 鈴江一友, 2005, 63
• マラリア貧血におけるT細胞の重要性, 西森まどか; 鈴江一友; 小安重夫; 鈴木守, 2005, 74th
• マラリアで生じる貧血におけるT細胞の重要性, 西森まどか; 小安重夫; 鈴木守; 鈴江一友, 2005, 35
• マラリア感染防御とヘルパーT細胞のサブセット, 鈴江一友; 渡辺玲子; 西森まどか; 小安重夫; 鈴木守, 2004, 34
• マラリアで成立する免疫記憶のメカニズム, 鈴江一友; LIN Qinghua; 鈴木守, 2004, 73rd
• 感染免疫におけるAPCとサイトカインの役割, 鈴江一友; 小安重夫, 2003, 2003
• IL-4がTh1を促進する可能性, 鈴江一友; 小林正規; 竹内勤; 小安重夫; 鈴木守, 2003, 72nd
• マラリアの防御免疫記憶の解析モデル, LIN Q; 鈴江一友; 鈴木守, 2003, 72nd
• ヘルパーT細胞の分化の局面で樹状細胞に作用する重要なサイトカインの特定, 鈴江一友; 小林正規; 鈴木守; 竹内勤; 小安重夫, 2002, 71st
• リーシュマニア感染後のTh1/Th2分化における樹状細胞の役割, 鈴江一友; 小林正規; 鈴木守; 竹内勤; 小安重夫, 2001, 31
• Listeria monocytogenes感染時におけるNK細胞による感染防御機構, 鈴江一友; 樗木俊聡; 小安重夫, 2000, 55, 2
• NKT細胞でなくNK細胞が親マウス骨髄移植時のF1雑種抵抗性に必須である, 鈴江一友; 小安重夫, 2000, 91, Supplement (Sept)
• Rag2^-/-マウスを用いたF1ハイブリッド抵抗性へのNKT細胞の関与の検討, 鈴江一友; 山田健人; 秦順一; 小安重夫, 1999, 58th
• Differentiation of malignant tumors from granulomas with dynamic [18F]-Fluoro-L-alpha-methyltyrosine PET imaging, A. Yamaguchi; Y. Iida; Y. Fujisawa; S. Inamoto; S. Zhao; K. Suzue; H. Tominaga; K. Kishimoto; T. Higuchi; H. Hisaeda; T. Izumi; Y. Kuge; Y. Tsushima, Oct. 2013, EUROPEAN JOURNAL OF NUCLEAR MEDICINE AND MOLECULAR IMAGING, 40, S316, S317, Summary international conference

Books etc

• 臨床免疫学（上）, 2005
• Pharma Medica, 2003
• 感染症の宿主防御機構－理論と実際－, 2002
• Annual Review 2003 免疫, 2002
• カラーイラストで学ぶ集中講義 生理学, 2008
• 細胞・培地活用ハンドブック, 2007
• 改訂版 人獣共通感染症, 2011
• 完全版マウス・ラット疾患モデル活用ハンドブック, 2010
• 別冊日本臨牀 感染症症候群（第2版）上巻, 2013
• ここまでわかった自己免疫疾患, 2011

Presentations

• Suppression of immune response during malaria infection, Madoka Nishimori, Yuta Kitamura, Kazutomo Suzue, The 18th IUIS International Congress of Immunology, Nov. 2023, 27 Nov. 2023, 02 Dec. 2023, English, Cape town, South Africa, International conference
• Extracellular ATP accelerates malaria anemia., Suzue K; Nishimori M; Hirai M; Imai T; Taniguchi T; Okada H; Shimokawa C; Koyasu S; Hisaeda H, 15th International congress of immunology, 2013, 23 Aug. 2013, English, International conference
• Pathogen non-specific bystander T cells were attenuated upon infection with malaria parasites., Suzue K; Amano H; Taniguchi T; Shimokawa C; Alex O; Onishi R; Hisaeda H, 16th International congress of immunology, 2016, 25 Aug. 2016, English, International conference
• T cells are involved in severe malarial anemia, 2006
• Bystander CD8+ T cells exacerbate the host survival upon malaria., The 13th International congress of Immunology, 2007
• Effector mechanisms of pathogen non-specific CD8+ T cells upon lethal malaria, 第37回日本免疫学会総会・学術集会, 2007
• The mechanisms of phenotypic changes of pathgen non-specific CD8+ T cells upon malaria, 第37回日本免疫学会総会・学術集会, 2007
• Parasite non-specific T cells were suppressed upon malaria infection, 14th International congress of immunology, 2010
• Attenuation of protective immunity against bystander infectious agents upon malaria, Annual meeting of the Japanese society for immunology, 2012
• 重症化マラリア貧血におけるT細胞の重要性, 第75回日本寄生虫学会大会, 2006
• マラリア貧血におけるT細胞の重要性, 第74回日本寄生虫学会大会, 2005
• Plasmodium感染におけるT細胞が及ぼす負の効果, 第74回日本寄生虫学会大会, 2005
• T cells are involved in severe malarial anemia, 第36回日本免疫学会総会・学術集会, 2006
• T cells play a negative role in host survival upon mararia infection, 第35回日本免疫学会総会・学術集会, 2005
• マラリア感染で活性化して生体にダメージを与えるリンパ球が存在する, 分子寄生虫マラリアフォーラム, 2005
• マラリアで成立する免疫記憶のメカニズム, 第73回日本寄生虫学会大会, 2004
• 弱毒ネズミマラリア原虫で誘導される防御免疫記憶, 第2回感染症若手研究者沖縄フォーラム, 2004
• IL-4がTh1を促進する可能性, 第72回日本寄生虫学会大会, 2003
• 感染においてTh1/Th2分化を規定する分子メカニズム, 第1回感染症若手研究者沖縄フォーラム, 2003
• マラリアで生じる貧血におけるT細胞の重要性, 第35回日本免疫学会総会・学術集会, 2005
• マラリア感染防御とヘルパーT細胞のサブセット, 第34回日本免疫学会総会・学術集会, 2004
• Common-gamma chain deficient mouse APCs induce Th2 response in Leishmania major infection., 第12回国際免疫学会, 2004
• Innate immunity からadaptive immunityへ・・・感染防御における樹状細胞の役割, 第63回日本寄生虫学会東日本大会, 2003
• ヘルパーＴ細胞の分化の局面で樹状細胞に作用する重要なサイトカインの特定, 第71回日本寄生虫学会大会, 2002
• 感染においてIL-4の産生がTh1を促進する可能性の検討, 第62回日本寄生虫学会東日本大会, 2002
• 感染宿主に悪影響を与えるマラリア非特異的T細胞の機能修飾メカニズム, 第76回日本寄生虫学会大会, 2007
• マラリアにおいてT細胞は宿主にとって有益か？, 第75回日本寄生虫学会大会, 2006
• Immune response to malaria which leads to the host defense as well as the host damage., 第35回日本免疫学会総会・学術集会, 2005
• Bystander CD8+ T cells exacerbate the host survival upon malaria., The 13th International congress of Immunology, 2007
• マラリア防御免疫におけるT細胞の重要性, 第74回日本寄生虫学会大会, 2005
• Bystander CD8+ T cells exacerbate the outcome of malaria., 第36回日本免疫学会総会・学術集会, 2006
• マラリア非特異的CD8+ T 細胞がマラリア病態を悪化させる, 第54回北関東医学会総会, 2007
• Effector mechanisms of pathogen non-specific CD8+ T cells upon lethal malaria, 第37回日本免疫学会総会・学術集会, 2007
• マラリア原虫非特異的CD8+ T細胞によってもたらされる宿主生存期間の短縮, 第77回日本寄生虫学会大会, 2008
• マラリア感染で起こる原虫非特異的T細胞の機能修飾によってもたらされる影響, 第79回日本寄生虫学会大会, 2010
• The mechanisms of phenotypic changes of pathgen non-specific CD8+ T cells upon malaria, 第37回日本免疫学会総会・学術集会, 2007
• 原虫非特異的CD8+ T細胞がマラリア病態を増悪化する, 第5回感染症沖縄フォーラム, 2007
• Parasite non-specific T cells were suppressed upon malaria infection, 14th International congress of immunology, 2010
• 細胞外ATPがマラリア重症貧血を促進する, 第６回 寄生虫感染免疫研究会, 2013
• マラリア感染時における他感染症に対する防御能への影響, 第80回日本寄生虫学会大会, 2011
• Attenuation of protective immunity against bystander infectious agents upon malaria, Annual meeting of the Japanese society for immunology, 2012
• Suppression of protective immunity against bystander infectious agents upon murine malaria, Yue C., Kitamura Y., Nishimori M., Suzue K., 17th International Congress of Immunology, 22 Oct. 2019, 19 Oct. 2019, 23 Oct. 2019, English, Beijing, China, International conference

Works

• 2001
• 2001
• 2002

Awards

• Dec. 2003
• Oct. 2001

Research Projects

• Kazutomo Suzue, Grant-in-Aid for Publication of Scientific Research Results, Gunma University, 01 Apr. 2019, 31 Mar. 2020, Principal investigator, Competitive research funding, No international co-authorship, 19HT0045
• Suzuki Mamoru, MHLW, Health Labour Sciences Research Grant, Apr. 2001, Mar. 2003, Competitive research funding
• Functional Analysis of Cellular Immunity in Infectious Diseases, Koyasu Shigeo, MEXT, Research for the Future Program, Apr. 1998, Mar. 2003, Competitive research funding
• Suzuki Mamoru, MEXT, Grant-in-Aid for Scientific Research, Apr. 2003, Mar. 2004, Competitive research funding, 15659100

  対象リソースIRI
• Basic study to establish "humanized animal model" by improvement and modification of severely immunodeficient NOG mouse, Ito Mamoru, MEXT, Grant-in-Aid for Scientific Research, Grant-in-Aid for Scientific Research (S), Central Institute for Experimental Animals, Apr. 2006, Mar. 2011, Severe immunodeficient NOG mice reported by us in 2002 show extremely high engraftment potential for xenogenic cells and tissues. Therefore, these mice enable us to generate "humanized mice" in which human cells and tissues act in the same way in humans by transplantation of human cells and tissues into NOG mice. The objective of this project is to improve immunodeficient mice including NOG mice by introducing human genes or by inactivating mouse genes to facilitate the generation of humanized mice. In the 4-year project period, we have newly established 33 strains of immunodeficient mice, and are working on 10 strains are in progress. By using NOG mice and these improved immunodeficient mice, we established various humanized models including those for infectious diseases, GVHD, cancer metastasis, human liver metabolism and stem cell differentiation. These models may be useful to evaluate new drug efficacy and safety, and also to analyze the mechanisms underlying human diseases., Competitive research funding, 18100005

  対象リソースIRI
• Studies on a live type malaria vaccine. Molecular genetics of the parasite attenuation., Suzuki Mamoru, MEXT, Grants-in-Aid for Scientific Research, Grant-in-Aid for Scientific Research (A), Gunma University, Apr. 1999, Mar. 2003, Plasmodium berghei(NK65) is the most virulent parasite to mice causing 100% mortality by inoculating single live parasite. The XAT strain is a non-virulent mutant derived by a high X-ray irradiation on NK65 parasite. XAT does not induce severe malaria even by inoculating 107 parasites causing a self-limiting parasitemia in the mice. The survived mice show a long lasting immunity against challenge infection with the virulent NK65. (1) The parasite materials of NK65 and XAT were comparatively analyzed by 2-DE and 16 spots showed significant higher protein expressions in NK65 than those shown in XAT. Ten proteins were subjected to sequencing analyzes and in the non-virulence XAT, low level expression of the proteins functioning in NADH metabolic pathways were shown. (2) The immunological memory generated in mice after inoculation with XAT was studied by transferring spleen cells from the recovered mice to Rag2-/- mice in which both T and B lymphocytes are deficient. The results showed that the immunological memory persisted more than 120 days in the recovered mice. It looked that the T lymphocytes, in particular,played a key role in the immunological memory in this experimental model., Competitive research funding, 11307004

  対象リソースIRI
• SUZUE KAZUTOMO, SGH foundation, Research grant, Apr. 1999, Mar. 2000, Principal investigator, Competitive research funding
• SUZUE KAZUTOMO, Ohyama health foundation, Research grant, Apr. 2002, Mar. 2003, Principal investigator, Competitive research funding
• SUZUE KAZUTOMO, Ohyama Health Foundation, Research grant, Apr. 2005, Mar. 2006, Principal investigator, Competitive research funding
• SUZUE KAZUTOMO, Uehara Memorial Foundation, Research grants, Apr. 2005, Mar. 2006, Principal investigator, Competitive research funding
• Apr. 2007, Mar. 2008, Principal investigator, Competitive research funding

  対象リソースIRI
• SUZUE KAZUTOMO, JSPS, Grant-in-Aid for JSPS Fellows, Apr. 1995, Mar. 1998, Principal investigator, Competitive research funding
• SUZUE KAZUTOMO, JSPS, Grant-in-Aid for JSPS Fellows, Apr. 1998, Mar. 2001, Principal investigator, Competitive research funding, 98J00777

  対象リソースIRI
• SUZUE KAZUTOMO, JSPS, Grant-in-Aid for Scientific Research, Apr. 2002, Mar. 2004, Principal investigator, Competitive research funding, 14770107

  対象リソースIRI
• SUZUE KAZUTOMO, JSPS, Grant-in-Aid for Scientific Research, Apr. 2004, Mar. 2006, Principal investigator, Competitive research funding, 16790243

  対象リソースIRI
• Molecular study of anti-protective immune response upon malaria, SUZUE KAZUTOMO, JSPS, Grant-in-Aid for Scientific Research, Grant-in-Aid for Scientific Research (C), Gunma University, Apr. 2008, Mar. 2011, Principal investigator, We have observed the functional changes of parasite-nonspecific T cells upon infection with Plasmodium. In this study, we addressed about the mechanisms and its impact of functional changes of parasite-non-specific T cells. First we identified that the functional changes of T cells are distinguishable of the activation pathway of conventional T cells. Next we identified that functional changes of T cells are influenced with another immune responses such as protection against Listeria and DNFB-induced contact hypersensitivity reaction., Competitive research funding, 20590421

  対象リソースIRI
• Molecular mechanisms of non specific T cell response upon malaria, SUZUE KAZUTOMO, JSPS, Grant-in-Aid for Scientific Research, Grant-in-Aid for Scientific Research (C), Gunma University, Apr. 2015, Mar. 2019, Principal investigator, A specificity is the most important in the immune system, and if this immunological rule is violated, immune cells that are unrelated to the pathogen become activated upon infection. We found that in malaria infection, the immune response is nonspecifically activated and suppressed. This characteristic T cell response was inhibited by blocking ATP release from red blood cells. Furthermore, it has been suggested that adenosine, which is a metabolite of ATP, suppresses the immune response nonspecifically., Competitive research funding, 15K08520

  対象リソースIRI
• マラリア感染で生じる獲得免疫と免疫記憶の分子メカニズム, Grant-in-Aid for Scientific Research, 2001, Competitive research funding
• 感染によるTh1/Th2バランスの分子メカニズム, Research for the Future Program, 1998, Competitive research funding
• マラリアワクチン開発に向けての免疫学的基礎研究, Health and Labour Sciences Research Grants, 2001, Competitive research funding
• 2001, Competitive research funding
• Kazutomo Suzue, Grant-in-Aid for Publication of Scientific Research Results, Gunma University, 01 Apr. 2020, 31 Mar. 2021, Principal investigator, Competitive research funding, No international co-authorship, 20HT0048
• Kazutomo Suzue, Grant-in-Aid for Publication of Scientific Research Results, Gunma University, 01 Apr. 2020, 31 Mar. 2021, Principal investigator, Competitive research funding, No international co-authorship, 21HT0045
• Molecular mechanisms of immune activation and therapeutic effect on infectious diseases by caffeine, SUZUE KAZUTOMO, JSPS, Grant-in-Aid for Scientific Research, 01 Apr. 2021, 31 Mar. 2024, Principal investigator, Competitive research funding, 21K11669
• Kazutomo Suzue, Grant-in-Aid for Publication of Scientific Research Results, Gunma University, 01 Apr. 2020, 31 Mar. 2021, Principal investigator, Competitive research funding, No international co-authorship, 23HT0043
• Molecular mechanisms of immune activation and therapeutic effect on infectious diseases by caffeine, SUZUE KAZUTOMO, JSPS, Grant-in-Aid for Scientific Research, 01 Apr. 2022, 31 Mar. 2025, Principal investigator, Competitive research funding, 22H02864
• hirakawa Hidetada, Suzue Kazutomo, Murakami Masami, Kimura Ayuko, JSPS, Grant-in-Aid for Scientific Research, 01 Apr. 2022, 31 Mar. 2025, Coinvestigator, Competitive research funding, 22H02864
• Molecular mechanisms of immune activation and therapeutic effect on infectious diseases by caffeine, SUZUE KAZUTOMO, JSPS, Grant-in-Aid for Scientific Research, 01 Apr. 2021, 31 Mar. 2024, Principal investigator, Competitive research funding, 21K11669
• Molecular mechanisms of immune activation and therapeutic effect on infectious diseases by caffeine, Japan Society for the Promotion of Science, Grants-in-Aid for Scientific Research, Grant-in-Aid for Scientific Research (C), Gunma University, Apr. 2021, Mar. 2024, Principal investigator, 21K11669

  対象リソースIRI
• Kazutomo Suzue, Grant-in-Aid for Publication of Scientific Research Results, Gunma University, 01 Apr. 2024, 31 Mar. 2025, Principal investigator, Competitive research funding, No international co-authorship, 24HT0040
• Jun. 2024, Mar. 2027, Coinvestigator, 24K22200

  対象リソースIRI
• Apr. 2022, Mar. 2026, 23K24126

  対象リソースIRI

Academic Contribution

• Review, 01 Apr. 2010, 31 Mar. 2011
• Review, 01 Apr. 2011, 31 Mar. 2012
• Review, 01 Apr. 2013, 31 Mar. 2014
• Review, 01 Apr. 2014, 31 Mar. 2015
• Review, 01 Apr. 2018, 31 Mar. 2019
• Review, 01 Apr. 2019, 31 Mar. 2020
• Review, 01 Apr. 2020, 31 Mar. 2021
• Review, 01 Apr. 2020, 31 Mar. 2021
• Review, 01 Apr. 2021, 31 Mar. 2022
• Review, 01 Apr. 2022, 31 Mar. 2023
• Review, 01 Apr. 2023, 31 Mar. 2024

Social Contribution

Social Contribution

• 免疫ふしぎ未来２０１８, Jul. 2018, 9999
• 免疫ふしぎ未来２０１９, Jul. 2019
• オープンキャンパスでの模擬授業（免疫学）, 2004, 2006
• 近隣の高校での模擬授業（免疫学）, 2004, 2006
• 外務医務官 マラリア研修アドバイザー, Apr. 2001, Mar. 2009
• 青年海外協力隊 マラリア研修アドバイザー, Apr. 2001, Mar. 2006
• 寄生虫感染で変化する免疫体質を観察しよう, Aug. 2015
• なぜアレルギーが良くなる？寄生虫感染で変化する免疫体質を調べよう, Aug. 2017
• 何でアレルギーがなおるの！？寄生虫感染で変化した体質を観察しよう, Aug. 2019, Others　(Target:　High school students)

  共同研究・競争的資金等の業績ID
• 何でアレルギーが！？寄生虫感染で変化した免疫体質を観察しよう, Jan. 2021, Others　(Target:　High school students)

  共同研究・競争的資金等の業績ID
• アレルギーが？アトピーが！寄生虫感染で変化した体質を観察しよう, Jan. 2022, Others　(Target:　High school students)

  共同研究・競争的資金等の業績ID
• アレルギーがなんで？寄生虫感染で変化した免疫体質を観察しよう, Feb. 2023, Others　(Target:　High school students)

  共同研究・競争的資金等の業績ID
• あっ！何で？アレルギーが？寄生虫感染で変化した免疫体質を観察しよう, Feb. 2025, Others　(Target:　High school students)

  共同研究・競争的資金等の業績ID
• 本当にアレルギーが治るの？寄生虫で変化する免疫体質を観察しよう, Aug. 2016

Media Coverage

• 大腸菌の一種 O157の「弱毒化」に成功と発表 群馬大大学院など, Other than myself, 09 May 2022, Media report

  共同研究・競争的資金等の業績ID
• 群馬大学など、O157の無毒化に成功　治療法発展に期待, Other than myself, 10 May 2022, Paper

  共同研究・競争的資金等の業績ID
• 腸管出血性大腸菌O157、多孔質炭素で無毒化に成功－群大ほか, Other than myself, 10 May 2022, Paper

  共同研究・競争的資金等の業績ID
• O157無毒化成功, Other than myself, 10 May 2022, Paper

  共同研究・競争的資金等の業績ID
• O157毒素炭素剤で吸着　群大など研究　治療法確立に期待, Other than myself, 07 May 2022, Paper

  共同研究・競争的資金等の業績ID
• O157無毒化成功　群大グループ共同研究　重症化防ぐ可能性, Other than myself, 07 May 2022, Paper

  共同研究・競争的資金等の業績ID
• O157無毒化成功, Other than myself, 06 May 2022, Media report

  共同研究・競争的資金等の業績ID
• 炭素でO157を無毒化？　特効薬開発にも期待　群馬大研究Gが発表, Other than myself, 06 May 2022, Paper

  共同研究・競争的資金等の業績ID