Rchr

J-GLOBAL ID：200901064691595877 Update date: Nov. 03, 2024

Nakanishi Makoto

ナカニシマコト | Nakanishi Makoto

Affiliation and department：
Job title： Professor
Homepage URL (1)： http://www.ims.u-tokyo.ac.jp/cancer-cell-biology/hp2018/01index.html

Research field (1)： Tumor biology

Research theme for competitive and other funds (51)：

2022 - 2028 生命科学連携推進協議会
2024 - 2026 Senescent cell niche: Analysis of the Aging of bone regenerative capacity in skeletal stem cells
2023 - 2026 Senescent cell niche: Analysis of aging mechanism of bone regeneration capacity in skeletal stem cells
2020 - 2023 Molecular mechanisms underlying age-associated turmorigenesis
2020 - 2022 Origins of senescent cells that regulate aging in vivo

2017 - 2020 Elucidation of the mechanisms underlying in vivo carcinogenesis by comprehensive analyses of cellular senescence

2016 - 2018 Genetic and biochemical analyses of mTOR related megalencephaly

2016 - 2018 Elucidation of the regulatory mechanisms of aging using senescence-accerelation mice

2014 - 2017 Tumorigenesis by aberrant maintenance DNA methylation

2010 - 2016 Control of cell fate decision in the cells differentiating to multiple pathways in a step-by-step fashion

2012 - 2015 Analysis of the nuclear receptor transcription conjugate mechanism for the hormone-resistant prostate cancer and development of the new molecular target treatment

2010 - 2015 Mechanisms underlying epigenome regulation by chromatin modifications during stem cell differentiation

2012 - 2014 Establishment of damage dose-dependent senescence inducible system and its application for understanding molecular basis underlying geriatiric diseases

2011 - 2014 Mechanism of premature senescence induction through DNA damage responses

2007 - 2011 Checkpoint analyses using anti -phosphoepitope-specific antibody

2008 - 2010 The contribution of the checkpoint genes to prostate cancer hormone resistant

2008 - 2010 Relationship of circadian rhythm with cycle control

2008 - 2010 Mechanisms of transcriptional repression in response to genome stress-role of histone H3 phosphorylation at T11-

2008 - 2009 Wee1Bを介した哺乳動物卵母細胞減数分裂機構とその異常

2008 - 2009 ヒストンH3-T11リン酸化による遺伝子発現制御とヘテロクロマチン形成の解析

2008 - 2009 チェックポイントキナーゼによる晩発型個体発ガン抑制機構の解明

2007 - 2008 SAD-Aノックアウトマウスを利用した虐待関連遺伝子の同定

2005 - 2006 Peroxisome proliferator-activated receptor-γ and growth inhibition by its ligands in prostate cancer

2005 - 2006 Molecular Mechanism of Mitotic Catastrophe

2004 - 2005 ナノテクノロジーを用いた新しい放射線治療の基礎的研究

2001 - 2005 Regulation of cell cycle checkpoints that monitor DNA damage and DNA replication block.

2004 - 2004 NF-κB活性化機構を阻害するスーパーアスピリンの合成

2002 - 2004 Analysis of meiotic DNAdamage checkpoint

2002 - 2003 The role of steroid receptor coactivator (SRC) in the development of prostate cancer

2002 - 2003 Molecular Cloning and Characterization of NAKBP, which bind to a novel IKK-Kinase, NAK

2002 - 2003 Synthesis and application of novel enone-type prostaglandin probes

2001 - 2002 分裂酵母を用いた哺乳動物細胞周期チェックポイントの再構築

2001 - 2002 Negative regulation of Chk2 expression by p53

2001 - 2002 Development of novel anti-inflammatory drugs on the basis of prostaglandin A1 structure

2001 - 2002 Elucidation of the mechanisms by which regulate DNA damage checkpoints in mammals

2000 - 2000 細胞周期チェックポイント異常による発ガンの分子機構

1999 - 2000 Elucidation of the cell cycle checkpoint mechanisms in mammalian cells

1999 - 1999 哺乳動物細胞におけるDNA複製および障害チェックポイント機構の解明

1999 - 1999 放射線発がんにおけるDNA障害チェックポイント機構の役割

1998 - 1998 プロテインキナーゼを中心とする情報ネットワークの解析

1997 - 1998 Prevention of apoptosis by p21 gene tranfer in central nervous system

1993 - 1993 老化遺伝子産物による不死化細胞のDNA合成

1990 - 1993 Regulation factors in the human energy supplying system.

1989 - 1991 Reactivation of proteins and membrane transport by the heat shock proteins from thermophilic bacteria.

発がんを抑制する分子機構に関する研究

細胞老化を制御する分子機構に関する研究

細胞周期チェックポイント制御に関する研究

NF-κBを介した細胞死制御

細胞周期制御に関する研究

Regulation of apoptosis by NF-κB

Study on Cell Cycle Regulation

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Papers (143)：

Satoru Meguro, Yoshikazu Johmura, Teh-Wei Wang, Satoshi Kawakami, Shota Tanimoto, Satotaka Omori, Yuki T Okamura, Seiji Hoshi, Emina Kayama, Kiyoshi Yamaguchi, et al. Preexisting senescent fibroblasts in the aged bladder create a tumor-permissive niche through CXCL12 secretion. Nature aging. 2024
Satoshi Kaito, Kazumasa Aoyama, Motohiko Oshima, Akiho Tsuchiya, Makiko Miyota, Masayuki Yamashita, Shuhei Koide, Yaeko Nakajima-Takagi, Hiroko Kozuka-Hata, Masaaki Oyama, et al. Inhibition of TOPORS ubiquitin ligase augments the efficacy of DNA hypomethylating agents through DNMT1 stabilization. Nature Communications. 2024. 15. 1
Isabel E Wassing, Atsuya Nishiyama, Reia Shikimachi, Qingyuan Jia, Amika Kikuchi, Moeri Hiruta, Keita Sugimura, Xin Hong, Yoshie Chiba, Junhui Peng, et al. CDCA7 is an evolutionarily conserved hemimethylated DNA sensor in eukaryotes. Science advances. 2024. 10. 34. eadp5753
Xinyi Zeng, Teh-Wei Wang, Kiyoshi Yamaguchi, Seira Hatakeyama, Satoshi Yamazaki, Eigo Shimizu, Seiya Imoto, Yoichi Furukawa, Yoshikazu Johmura, Makoto Nakanishi. M2 macrophage-derived TGF-β induces age-associated loss of adipogenesis through progenitor cell senescence. Molecular metabolism. 2024. 84. 101943-101943
Xinyi Zeng, Teh-Wei Wang, Kiyoshi Yamaguchi, Seira Hatakeyama, Satoshi Yamazaki, Eigo Shimizu, Seiya Imoto, Yoichi Furukawa, Yoshikazu Johmura, Makoto Nakanishi. M2 macrophage-derived TGF-β induces age-associated loss of adipogenesis through progenitor cell senescence. Molecular Metabolism. 2024. 84. 101943-101943

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MISC (128)：

今と未来がわかる老化の科学. 今と未来がわかる老化の科学(ビジュアル図鑑). 2024
老化を標的とした疾患予防・治療. 週刊医学のあゆみ. 2023. 287. 5
総論セノリティクスの未来. 細胞. 2023. 55
Makoto Nakanishi. Editorial. The Journal of Biochemistry. 2022. 171. 1. 1-1
城村由和, 荒谷紗絵, 中西真. Rejuvenation by senolysis. 生体の科学. 2022. 73. 3. 278-282

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Patents (2)：

老化細胞を除去する方法
がんの予後判定方法

Books (1)：

今と未来がわかる老化の科学(ビジュアル図鑑)
ナツメ社 2024

Lectures and oral presentations (91)：

Senescent cancer stromal cells, a major player, not a player in the back seat
(50th Annual Meeting of Korean Cancer Association 2024)
老化細胞による炎症・線維化病態
(第60回日本肝臓学会総会 2024)
加齢に伴う臓器線維化の分子基盤
(第24回日本抗加齢医学学会総会 2024)
慢性炎症を標的に老化を改善する
(第59回日本臨床分子医学会学術集会 2024)
Role of stromal p16-positive cells in cancer progression
(2024)

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Works (2)：

細胞周期制御因子を標的とした抗ガン剤の開発
2000 - 2001
Development of neural anti-cancer drug targeting cell cycle regulators
2000 - 2001

Education (4)：

- 1989 Nagoya City University
- 1989 Nagoya City University Graduate School, Division of Medicine
- 1985 Nagoya City University
- 1985 Nagoya City University Faculty of Medicine

Professional career (1)：

Medical Doctor and Ph.D. (Nagoya City University)

Work history (9)：

2016/04 - 現在 The Institute of Medical Science The University Tokyo Division of Cancer Cell Biology Department of Cancer Biology Professor
1998 - 2000 Nagoya City University
1998 - 2000 Associate
1996 - 1998 国立長寿医療研究センター
1996 - 1998 Chief.

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Awards (2)：

2023 - Ministry of Education, Culture, Sports, Science and Technology The Commendation for Science and Technology by the Minister of Education, Culture, Sports, Science and Technology (Research Category)
2000 - 日本生化学会奨励賞

Association Membership(s) (3)：

日本癌学会 , 日本分子生物学会 , 日本生化学会

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