Fujita Toshiro

藤田敏郎 | Fujita Toshiro

Affiliation and department：
Job title： Fellow

Research field (1)： Nephrology

Research theme for competitive and other funds (38)：

2020 - 2022 Integrative elucidation of lifestyle diseases using the epigenomic memory of kidney cells
2018 - 2020 Development of a new treatment for diabetic nephropathy by siRNA delivery using nanocarriers
2015 - 2020 Development of a novel strategy for life style disease through exploration of the roles of mineral- and gluco-corticoids in hypertension and organ dysfunction
2015 - 2019 Intra-renal signaling through post-translational modification as the potential target to counteract kidney diseases
2016 - 2018 Exploration of gluco- and mineralocorticoid-dependent sodium transporter system involved in salt sensitive hypertension

2013 - 2018 The function of histone demethylase JMJD1A as a signal-sensing scaffold

2014 - 2017 Search for novel therapeutic target molecules focusing on cellular memory in iPS conversion of human kidney cancer cells

2015 - 2016 生活習慣病の高血圧/臓器障害における糖質・鉱質コルチコイドの役割と新規治療探索

2014 - 2016 Exploration of epigenome abnormalities involved in salt sensitive hypertension

2013 - 2016 Establishment of a specific differentiation induction method to the kidneys constituent cells using a cell memory of the human kidney-derived iPS cells

2011 - 2015 Artifical kidney established by human kidney derived iPS cells

2011 - 2015 New cell therapy for kidney disease using human kidney derived iPS cells

2012 - 2014 Epigenetic mechanisms underlying renal derangement in hypertension and diabetes

2009 - 2014 The mechanism for activation of aldosterone/mineralocorticoid receptor in life style-related diseases

2010 - 2012 Development of new renal regenerative therapy using human Renal-iPScells regulated by NF-kappaB

2009 - 2011 Strategy for overcoming chronic kidney disease, focusing on mineralocorticoid receptor

2007 - 2008 Mechanisms and physiology of Ca^<2+> influx by spatial regulation ofcaveolae in endothelial cells

2005 - 2007 蛋白尿の発生機序:酸化ストレスによる糸球体基底膜のシャント形成

2005 - 2007 Targeting oxidative stress and new therapy in metabolic syndrome

2004 - 2006 高血圧腎障害における凝固線溶系の変化と繊維化の機序の解明及びそれに基づく新たな治療法の探索

2002 - 2004 G PROTEIN AND DISEASES : ANALYSES OF MOLECULAR MECHANISMS AND REGULATION OF SIGNALS

2000 - 2004 G蛋白質病と疾患:分子機構の解析とシグナル

2000 - 2004 Identification of susceptible genes for essential hypertension

2002 - 2003 Role of LOX-1 and protective effect of PPARγ in the development of atherosclerosis

2002 - 2003 遺伝子工学を用いた動脈硬化形成とその防御機構の解析-LOX-1とPPARγの役割

2001 - 2002 METHOD TO ANALYZE RECEPTOR-G PROTEIN INTERACTION

2000 - 2002 Role of oxidized LDL/LOX-1 in the development and progression of renal disease.

1998 - 2002 The study of physiological and pathophysiological roles of adrenomedullin and related peptides.

1998 - 2002 PHYSIOLOGICAL ROLE OF ADRENOMEDULLIN BY MOLECULAR BIOLOGICAL AND GENE ENGINEERING APPROACH

2000 - 2001 G protein diseases : analysis and application

2000 - 2001 発生工学を用いた食塩感受性高血圧発症機序及び臓器障害進展の研究

1994 - 1994 食塩感受性高血圧におけるNa-Hantiportの役割

1993 - 1993 食塩高血圧の昇圧機序における細胞内pHの役割:特に内皮細胞機能について

1991 - 1993 Multiple mechanisms for vasodilator effect of magnesium

1991 - 1991 アンジオテンシンIIー食塩高血圧ラットにおけるカルシウムの降圧効果

1989 - 1989 高血圧の発症機序における食塩とストレスの関連に関する研究

1986 - 1987 Role of endogenous opioid peptide in the hypotensive action of taurine

1983 - 1984 食塩感受性高血圧症における交感神経系とレニンアンジオテンシン系の役割に関する研究

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Papers (175)：

Takeshi Marumo, Naoto Yoshida, Noriko Inoue, Masayuki Yamanouchi, Yoshifumi Ubara, Shinji Urakami, Takeshi Fujii, Yutaka Takazawa, Kenichi Ohashi, Wakako Kawarazaki, et al. Aberrant proximal tubule DNA methylation underlies phenotypic changes related to kidney dysfunction in patients with diabetes. American journal of physiology. Renal physiology. 2024. 327. 3. F397-F411
Liffert Vogt, Francine Z Marques, Toshiro Fujita, Ewout J Hoorn, A H Jan Danser. Novel mechanisms of salt-sensitive hypertension. Kidney international. 2023. 104. 4. 690-697
Toshiro Fujita. Recent Advances in Hypertension: Epigenetic Mechanism Involved in Development of Salt-Sensitive Hypertension. Hypertension (Dallas, Tex. : 1979). 2023. 80. 4. 711-718
Nobuhiro Ayuzawa, Mitsuhiro Nishimoto, Wakako Kawarazaki, Shigeyoshi Oba, Takeshi Marumo, Atsu Aiba, Toshiro Fujita. Rac1 deficiency impairs postnatal development of the renal papilla. Scientific reports. 2022. 12. 1. 20310-20310
Daigoro Hirohama, Mitsuhiro Nishimoto, Nobuhiro Ayuzawa, Wakako Kawarazaki, Wataru Fujii, Shigeyoshi Oba, Shigeru Shibata, Takeshi Marumo, Toshiro Fujita. Activation of Rac1-Mineralocorticoid Receptor Pathway Contributes to Renal Injury in Salt-Loaded db/db Mice. Hypertension (Dallas, Tex. : 1979). 2021. 78. 1. 82-93

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MISC (59)：

西本光宏, 水野理介, 藤田敏郎, 一色政志. 血管内皮における細胞内カルシウムセンサーSTIM1による血圧調節機構の解析. 日本高血圧学会総会プログラム・抄録集. 2019. 42回. 222-222
広浜大五郎, 鮎澤信宏, 上田浩平, 西本光宏, 河原崎和歌子, 渡邉篤史, 下澤達雄, 丸茂丈史, 柴田茂, 藤田敏郎. 腎pendrinの発現機構と血圧調節における役割の解明. 日本内分泌学会雑誌. 2017. 93. 4. 1377-1377
西本光宏, 大津洋, 丸茂丈史, 河原崎和歌子, 鮎澤信宏, 上田浩平, 広浜大五郎, 渡邉篤史, 藤田敏郎. Eplerenoneは塩分過剰摂取によるRA系阻害抵抗性腎障害を抑制する-EVALUATE試験サブ解析-. 日本腎臓学会誌. 2015. 57. 3. 509-509
Masashi Isshiki, Risuke Mizuno, Mitsuhiro Nishimoto, Toshiro Fujita. A FRET-based Sensor Detects Caveolae as Spatially Distinct Ca2+Stores in Endothelial Cells. CIRCULATION. 2012. 126. 21
Risuke Mizuno, Masashi Isshiki, Mitsuhiro Nishimoto, Toshiro Fujita. High Salt Inhibits Lymphatic Transport Function Through Regulation Of Na plus -K plus -ATPase Activity. CIRCULATION. 2012. 126. 21

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Education (1)：

1966 - 1972 Keio University School of Medicine

Work history (10)：

2018/04 - 現在東京大学先端科学技術研究センターフェロー
2012/06 - 現在 The University of Tokyo
2018/04 - 2023/03 Shinshu University
2012/04 - 2013/03 東京大学先端科学技術研究センター臨床エピジェネテイクス講座特任教授
1997/04 - 2012/03 東京大学大学院医学研究科内科学(腎臓・内分泌内科) 教授

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Awards (11)：

2022 - 日本腎臓学会上田賞
2019 - American Society of Nephrology Homer W. Smith Award
2015 - 日本医師会日本医師会医学賞
2015 - 紫綬褒章
2014 - 国際高血圧学会 Franz Volhard Award

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