Rchr

J-GLOBAL ID：200901051069010239 Update date: Oct. 11, 2024

Gotoh Noriko

ゴトウノリコ | Gotoh Noriko

Affiliation and department：
Job title： Associate Professor

Research field (5)： Pathobiochemistry , Tumor biology , Developmental biology , Cell biology , Molecular biology

Research keywords (6)： Stem cell biology , Tumor molecular biology , 発生生物学 , 細胞生物学 , 分子生物学 , Developmental Biology

Research theme for competitive and other funds (33)：

2022 - 2026 脈管内がん幹細胞の胚シグナル分子による微小環境形成機構とそれを標的にした治療戦略
2021 - 2024 乳がんゲノム遺伝子変異の不均一性及び幹細胞階層性の1細胞レベル統合解明
2020 - 2022 幹細胞分裂過程リアルタイムイメージングによる細胞社会ダイバーシティ獲得機構の解明
2019 - 2022 Elucidation of molecular mechanism of cancer stem cell niche at the very early stage aiming at cancer prevention
2018 - 2021 Integrative analysis of genetical mutations and heterogeneity based on stemness in breast cancer cells

2017 - 2019 Elucidation of molecular mechanisms of plasticity in tumor cells

2015 - 2018 Effects of general anesthetics on the regulatory mechanisms of neuronal development in the critical period

2015 - 2018 Elucidation of breast cancer tissue diversity by integration analysis of minimum unit omics

2014 - 2016 Development of diagnostic system of mutations in breast cancer by using primary spheroid cells derived from patients

2010 - 2016 Development of Novel Treatment Strategies Targeting Cancer Stem Cells

2010 - 2015 Development of Systems Cancer Research by Computation and Simulation

2010 - 2015 Analysis of novel molecular targets of cancer stem cells by systems analysis

2011 - 2014 Systems analysis of molecular mechanisms of growth factor regulation of stem cells

2010 - 2012 Drug-response pathway analysis methods based on network analysis

2008 - 2010 Systems biological analysis of dynamic regulation of stem cells and development by growth factors

2005 - 2009 Signaling mechanism of tumor angiogenesis.

2006 - 2007 Analysis of molecular mechanisms of development of mammalian eyes, brain, kidney and heart regulated by tyrosine kinases

2005 - 2006 増殖因子による幹細胞の増殖、生存及び未分化性維持の分子機構の解析

2005 - 2005 受容体型チロシンキナーゼ癌原遺伝子による癌化の分子機構とその制御

2000 - 2004 腫瘍の形成と維持の機構

2002 - 2003 Analysis of molecular mechanisms of development and physiological functions of mammals regulated by a docking protein

1999 - 1999 がん遺伝子の単離とヒトがんにおける異常の解明

1998 - 1999 Signal transduction for cell proliferation, apoptosis and differentiation via receptor-type tyrosine kinase and Shc molecule.

1997 - 1999 アメリカ大陸を中心としたがん研究先進グループとの研究交流

1998 - 1998 shcを介する増殖、アポトーシス、分化の情報伝達機構の解析

1997 - 1997 受容体よりShcを介する増殖、アポトーシス、分化の情報伝達機構の解析

1996 - 1996 受容体よりアダプター分子Shcを介する増殖、アポトーシス、分化シグナル伝達の解析

1995 - 1995 受容体より、アダプター分子Shcを介する増殖及びアポトーシスシグナル伝達の解析

Signal transduction pathways through FGF and neurotrophin for disease

Signal transduction pathways through FGF and neurotrophin for mammalian development

Signal transduction pathways through FGF, neurotrophin and docking proteins for mammalian development and disease

Study of Signal Transduction through EGF receptor

Study of Signal Transduction through Shc Adaptor Protein

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Papers (158)：

Sikun Meng, Tomoaki Hara, Hiromichi Sato, Shotaro Tatekawa, Yoshiko Tsuji, Yoshiko Saito, Yumiko Hamano, Yasuko Arao, Noriko Gotoh, Kazuhiko Ogawa, et al. Revealing neuropilin expression patterns in pancreatic cancer: From single-cell to therapeutic opportunities (Review). Oncology letters. 2024. 27. 3. 113-113
Noritaka Tanaka, Hikari Okada, Kiyoshi Yamaguchi, Masahide Seki, Daisuke Matsubara, Noriko Gotoh, Yutaka Suzuki, Yoichi Furukawa, Taro Yamashita, Jun-Ichiro Inoue, et al. Mint3-depletion-induced energy stress sensitizes triple-negative breast cancer to chemotherapy via HSF1 inactivation. Cell death & disease. 2023. 14. 12. 815-815
Li M, Nishimura T, Takeuchi Y, Hongu T, Wang Y, Shiokawa D, Wang K, Hirose H, Sasahara A, Yano M, et al. FXYD3 functionally demarcates an ancestral breast cancer stem cell subpopulation with features of drug-tolerant persisters. Journal of Clinical Investigation. 2023
Yuming Wang, Tsunaki Hongu, Tatsunori Nishimura, Yasuto Takeuchi, Hiroshi Takano, Takiko Daikoku, Ryoji Yao, Noriko Gotoh. Mitochondrial one-carbon metabolic enzyme MTHFD2 facilitates mammary gland development during pregnancy. Biochemical and biophysical research communications. 2023. 674. 183-189
楠木啓主, 本宮綱記, 西村建徳, 竹内康人, 岡本康司, 後藤典子. 乳がん細胞はミトコンドリア内1炭素代謝酵素MTHFD1Lを用いて肺転移を起こす(Mitochondrial one-carbon metabolic enzyme MTHFD1L contributes to breast cancer lung metastasis). 日本癌学会総会記事. 2023. 82回. 979-979

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MISC (38)：

本宮綱記, 後藤典子. テネイシンCはマクロファージと肺血管内皮細胞の連続的な活性化を介して肺血管性転移ニッチの形成を誘導する(TNC triggers sequential activation of macrophages and endothelial cells to generate a metastatic vascular niche in lung). 日本癌学会総会記事. 2022. 81回. MS1-4
Yasuto Takeuchi, Natsuko Kimura, Takahiko Murayama, Yukino Machida, Daisuke Iejima, Tatsunori Nishimura, Yuming Wang, Mizuki Yamamoto, Naoki Itano, Junichiro Inoue, et al. FRS2b fashions a cytokine-rich inflammatory microenvironment that promotes breast cancer carcinogenesis. CANCER SCIENCE. 2022. 113. 994-994
Li Mengjiao, Tatsunori Nishimura, Daisuke Shiokawa, Shimamura Teppei, Asako Sasahara, Masao Yano, Satoko Ishikawa, Tetsuo Ota, Keiichiro Tada, Koji Okamoto, et al. Single-cell RNAseq identifies subpopulations of drug resistant cancer stem-like cells in patient-derived breast cancer. CANCER SCIENCE. 2022. 113. 1325-1325
Mengjiao Li, Tatsunori Nishimura, Asako Sasahara, Masao Yano, Satoko Ishikawa, Tetsuo Ohta, Kei-ichiro Tada, Daisuke Shiokawa, Koji Okamoto, Noriko Gotoh. Single cell analysis revealed heterogeneity among patient-derived breast cancer stem-like cells. CANCER SCIENCE. 2021. 112. 696-696
Tatsunori Nishimura, Mengjiao Li, Daisuke Shiokawa, Teppei Shimamura, Asako Sasahara, Masao Yano, Satoko Ishikawa, Tetsuo Ohta, Kei-ichiro Tada, Kim Seong-Jin, et al. Identification of subpopulations in patient-derived breast cancer stem-like cells by using RNA sequencing. CANCER SCIENCE. 2021. 112. 173-173

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Patents (17)：

CXCR7 INHIBITORS FOR THE TREATMNET WITH CANCER
メチレンテトラヒドロ葉酸デヒドロゲナーゼ-2阻害薬に対する反応性を予測する方法
抗がん剤
癌の新規分子標的MICAL3
CXCL1の発現量に基づく肺癌患者の予後判定方法およびキット

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Books (37)：

乳がん幹細胞を再現するバイオロジーとそれに関わるシグナル伝達経路
実験医学別冊がん微小環境に1細胞レベルで挑む(羊土社) 2021
「乳腺のオルガノイドによるマイ・メディシン」-がん幹細胞研究の立場から
医学のあゆみ (医歯薬出版株式会社) 2021
微小環境と治療抵抗性メカニズム in CANCER BOARD of the BREAST
2020
がん幹細胞とそのニッチ in 医学のあゆみ
医学のあゆみ (医歯薬出版株式会社) 2020
がん幹細胞とその微小環境および治療への展望
羊土社 2020

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Lectures and oral presentations (88)：

一炭素代謝酵素が制御する腫瘍免疫におけるポリアミン代謝
(第46回日本分子生物学会シンポジウム「ポリアミン研究の最前線」 2023)
FXYD3 functionally demarcates an ancestral breast cancer stem cell subpopulation with features of drug-tolerant persisters
(2023)
第13回シグナルネットワーク研究会
(第13回シグナルネットワーク研究会 2023)
がん間質細胞CAF由来因子によるがん幹細胞の浸潤、骨転移
(日本患者由来がんモデル学会学術集会2022シンポジウム「がん三次元培養研究の新展開」 2023)
Heterogenous breast cancer stem cells sustain in primary and metastatic cancer stem cell niches
(The 41st Sapporo International Cancer Symposium 2023)

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Works (6)：

FGF、ニューロトロフィンの関与する発生や疾病へのシグナリングの研究
2001 -
Signal transduction pathways through FGF and neurotrophin for development and disease
2001 -
アダプター分子Shcを介するシグナル伝達研究
1993 - 1998
Study of Signal transduction through Shc adaptor protein
1993 - 1998
EGF受容体を介するシグナル伝達研究
1992 - 1998

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Education (4)：

- 1993 The University of Tokyo
- 1993 The University of Tokyo Graduate School, Division of Medical Sciences
- 1989 Kanazawa University
- 1989 Kanazawa University Faculty of Medicine

Professional career (1)：

Doctor (The University of Tokyo)

Work history (12)：

2013/04 - 現在 Cancer Research Institute, Kanazawa University Division of Cancer Cell Biology Professor
2007/04 - 2013/03 Institute of Medical Science, The University of Tokyo Division of Systems Medical Technology Associate Professor
2005/07 - 2007/03 Institute of Medical Science, The University of Tokyo Division of Genetics Associate Professor
2002/07 - 2005/03 Institute of Medical Science, The University of Tokyo Division of Genetics Lecturer
2001 - 2002 Josyu, Division of Genetics, Institute of Medical Science, University of Tokyo

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Awards (1)：

2023/04 - 文部科学省文部科学大臣表彰科学技術賞研究部門がん幹細胞が維持される微小環境の仕組み解明の研究

Association Membership(s) (7)：

American Association of Cancer Research , 日本内科学会 , 日本血液学会 , 日本分子生物学会 , 日本癌学会 , JAPAN CYTOMETRY SOCIETY , THE JAPANESE ASSOCIATION FOR MOLECULAR TARGET THERAPY OF CANCER

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