Inazumi Hideaki 稲住英明

Researcher Number	10844037
Other IDs
Affiliation (Current)	2025: 東京大学, 医学部附属病院, 特任研究員
Affiliation (based on the past Project Information) *help	2023: 東京大学, 医学部附属病院, 特任研究員 2019 – 2022: 京都大学, 医学研究科, 医員
Review Section/Research Field	Principal Investigator Basic Section 53020:Cardiology-related / 0902:General internal medicine and related fields
Keywords	Principal Investigator 心不全 / Gタンパク / 循環器

NRSF転写調節複合体の心不全発症・進展における役割の全容解明Principal Investigator
- Principal Investigator
  
  稲住英明
- Project Period (FY)
  2023 – 2025
- Research Category
  
  Grant-in-Aid for Early-Career Scientists
- Review Section
  
  Basic Section 53020:Cardiology-related
- Research Institution
  The University of Tokyo
Elucidation of a novel pathogenic mechanism of heart failure progression mediated by trimeric G proteinPrincipal Investigator
- Principal Investigator
  
  Inazumi Hideaki
- Project Period (FY)
  2020 – 2022
- Research Category
  
  Grant-in-Aid for Early-Career Scientists
- Review Section
  
  Basic Section 53020:Cardiology-related
- Research Institution
  Kyoto University
significance of gnao1 as a novel therapeutic target of heart failurePrincipal Investigator
- Principal Investigator
  
  Inazumi Hideaki
- Project Period (FY)
  2019 – 2020
- Research Category
  
  Grant-in-Aid for Research Activity Start-up
- Review Section
  
  0902:General internal medicine and related fields
- Research Institution
  Kyoto University

All 2023 2022 2021 2020 2019

All Journal Article Presentation

[Journal Article] NRSF- GNAO1 Pathway Contributes to the Regulation of Cardiac Ca 2+ Homeostasis2022
- Author(s)
  Inazumi Hideaki、Kuwahara Koichiro、Nakagawa Yasuaki、et al.
- Journal Title
  
  Circulation Research
  
  Volume: 130 Issue: 2 Pages: 234-248
- DOI
  10.1161/circresaha.121.318898
- Peer Reviewed / Open Access / Int'l Joint Research
- Data Source
  KAKENHI-PROJECT-19K07297, KAKENHI-PROJECT-19K08580, KAKENHI-PROJECT-19K16497, KAKENHI-PROJECT-20H03673, KAKENHI-PROJECT-19K07105, KAKENHI-PROJECT-19K07116, KAKENHI-PROJECT-19K07299, KAKENHI-PROJECT-21K08126, KAKENHI-PROJECT-20K17077, KAKENHI-PROJECT-22K08099
[Journal Article] NRSF/REST-Mediated Epigenomic Regulation in the Heart: Transcriptional Control of Natriuretic Peptides and Beyond.2022
- Author(s)
  Inazumi H, Kuwahara K.
- Journal Title
  
  Biology (Basel).
  
  Volume: 11 Issue: 8 Pages: 1197-1197
- DOI
  10.3390/biology11081197
- Peer Reviewed / Open Access
- Data Source
  KAKENHI-PROJECT-20H03673, KAKENHI-PROJECT-20K17077
[Presentation] Development of a novel antiarrhythmic therapy using antisense oligonucleotide to improve the prognosis of cardiomyopathy2023
- Author(s)
  Hideaki Inazumi, Masamichi Ito, Yuuya Kasahara, Yasuaki Nakagawa
- Organizer
  第7回日本循環器学会基礎研究フォーラム
- Data Source
  KAKENHI-PROJECT-23K15127
[Presentation] 転写調節因子NRSFを介した心不全進展の分子メカニズム2022
- Author(s)
  稲住英明, 桑原宏一郎, 中川靖章, 大矢未来, 木下秀之, 森内健司, 柳澤洋, 金森敬彦, 錦見俊雄,　中尾一和
- Organizer
  第26回日本心血管内分泌代謝学会学術集会
- Data Source
  KAKENHI-PROJECT-20K17077
[Presentation] NRSF-GNAO1 Transcriptional Pathway Plays a Pivotal Role in the Regulation of Cardiac Ca2+ Homeostasis2022
- Author(s)
  Hideaki Inazumi
- Organizer
  第86回日本循環器学会学術集会
- Data Source
  KAKENHI-PROJECT-20K17077
[Presentation] 転写調節因子・エピゲノム制御因子に着目した心不全の病態解明2022
- Author(s)
  稲住英明
- Organizer
  第70回日本心臓病学会学術集会
- Invited
- Data Source
  KAKENHI-PROJECT-20K17077
[Presentation] NRSF-GNAO1-CaMKII 転写制御回路の心筋リモデリング、Ca2+恒常性における意義2021
- Author(s)
  稲住　英明
- Organizer
  第31回日本循環薬理学会
- Data Source
  KAKENHI-PROJECT-20K17077
[Presentation] The significance of NRSF-GNAO1-CaMKII transcriptional circuit in myocardial remodeling2021
- Author(s)
  Hideaki Inazumi
- Organizer
  第38回国際心臓研究学会日本部会
- Invited
- Data Source
  KAKENHI-PROJECT-20K17077
[Presentation] CaMK-NRSF-GNAO1 transcriptional circuits participates in the pathological cardiac remodeling2020
- Author(s)
  Hideaki Inazumi
- Organizer
  Basic Cardiovascular Science (BCVS) 2020
- Invited / Int'l Joint Research
- Data Source
  KAKENHI-PROJECT-20K17077
[Presentation] NRSF-GNAO1-CaMK2 axis exacerbates cardiac remodeling and progresses heart failure by impairing Ca2+ homeostasis2020
- Author(s)
  Hideaki Inazumi, Yoshihiro Kuwabara, Koichiro Kuwahara, Yasuaki Nakagawa, Hideyuki Kinoshita, Kenji Moriuchi, Hiromu Yanagisawa, Toshio Nishikimi, Miku Oya, Mitsuhiko Yamada, Toshihide Kashihara, Nagomi Kurebayashi, Masami Sugihara, Kazuwa Nakao , Takeshi Kimura
- Organizer
  European Society of Cardiology (ESC)
- Data Source
  KAKENHI-PROJECT-19K23963
[Presentation] Increased Gαo Expression Regulated by NRSF Plays a Key Role in the Development of Heart Failure Through the Impairment of Ca2+ Homeostasis2020
- Author(s)
  Hideaki Inazumi, Yasuaki Nakagawa, Kenji Moriuchi, Koichiro Kuwahara
- Organizer
  Basic Cardiovascular Science (BCVS) 2020
- Int'l Joint Research
- Data Source
  KAKENHI-PROJECT-20K17077
[Presentation] NRSF-GNAO1-CaMK2 axis exacerbates cardiac remodeling and progresses heart failure by impairing Ca2+ homeostasis2020
- Author(s)
  Hideaki Inazumi, Yoshihiro Kuwabara, Koichiro Kuwahara, Yasuaki Nakagawa, Hideyuki Kinoshita, Kenji Moriuchi, Hiromu Yanagisawa, Toshio Nishikimi, Miku Oya, Mitsuhiko Yamada, Toshihide Kashihara, Nagomi Kurebayashi, Masami Sugihara, Kazuwa Nakao , Takeshi Kimura
- Organizer
  European Society of Cardiology (ESC) 2020
- Int'l Joint Research
- Data Source
  KAKENHI-PROJECT-20K17077
[Presentation] CaMK-NRSF-GNAO1 transcriptional circuits participates in the pathological cardiac remodeling2020
- Author(s)
  Hideaki Inazumi
- Organizer
  Basic Cardiovascular Science (BCVS) 2020
- Invited / Int'l Joint Research
- Data Source
  KAKENHI-PROJECT-19K23963
[Presentation] Increased Gαo Expression Regulated by NRSF Plays a Key Role in the Development of Heart Failure Through the Impairment of Ca2+ Homeostasis2020
- Author(s)
  Hideaki Inazumi, Yasuaki Nakagawa, Kenji Moriuchi, Koichiro Kuwahara
- Organizer
  Basic Cardiovascular Science (BCVS) 2020
- Int'l Joint Research
- Data Source
  KAKENHI-PROJECT-19K23963
[Presentation] Increased Gαo expression underlies cardiac dysfunction and lethal arrhythmias accompanied with abnormal Ca2+ handling2019
- Author(s)
  Hideaki Inazumi
- Organizer
  ESC congress 2019
- Int'l Joint Research
- Data Source
  KAKENHI-PROJECT-19K23963
[Presentation] Increased Gαo expression plays a pivotal role in the progression of heart failure by impairing Ca2+ handling2019
- Author(s)
  Hideaki Inazumi
- Organizer
  BCVS2019
- Int'l Joint Research
- Data Source
  KAKENHI-PROJECT-19K23963
[Presentation] Increased expression of Gαo plays a pivotal role in the progression of heart failure by impairing Ca2+ homeostasis2019
- Author(s)
  稲住　英明
- Organizer
  第36回国際心臓研究学会日本部会
- Data Source
  KAKENHI-PROJECT-19K23963
[Presentation] 抑制性Ｇ蛋白サブユニットＧαoの発現亢進はCa2+ handlingの異常を介して心不全進展にかかわる2019
- Author(s)
  稲住　英明
- Organizer
  第56回日本臨床分子医学会学術集会
- Data Source
  KAKENHI-PROJECT-19K23963

1. 桑原宏一郎

# of Collaborated Projects: 0 results

# of Collaborated Products: 1 results

Inazumi Hideaki 稲住 英明

Research Projects

Research Products

Co-Researchers

NRSF転写調節複合体の心不全発症・進展における役割の全容解明Principal Investigator

Principal Investigator

Project Period (FY)

Research Category

Review Section

Research Institution

Elucidation of a novel pathogenic mechanism of heart failure progression mediated by trimeric G proteinPrincipal Investigator

Principal Investigator

Project Period (FY)

Research Category

Review Section

Research Institution

significance of gnao1 as a novel therapeutic target of heart failurePrincipal Investigator

Principal Investigator

Project Period (FY)

Research Category

Review Section

Research Institution

[Journal Article] NRSF- GNAO1 Pathway Contributes to the Regulation of Cardiac Ca 2+ Homeostasis2022

Author(s)

Journal Title

DOI

Data Source

[Journal Article] NRSF/REST-Mediated Epigenomic Regulation in the Heart: Transcriptional Control of Natriuretic Peptides and Beyond.2022

Author(s)

Journal Title

DOI

Data Source

[Presentation] Development of a novel antiarrhythmic therapy using antisense oligonucleotide to improve the prognosis of cardiomyopathy2023

Author(s)

Organizer

Data Source

[Presentation] 転写調節因子NRSFを介した心不全進展の分子メカニズム2022

Author(s)

Organizer

Data Source

[Presentation] NRSF-GNAO1 Transcriptional Pathway Plays a Pivotal Role in the Regulation of Cardiac Ca2+ Homeostasis2022

Author(s)

Organizer

Data Source

[Presentation] 転写調節因子・エピゲノム制御因子に着目した心不全の病態解明2022

Author(s)

Organizer

Data Source

[Presentation] NRSF-GNAO1-CaMKII 転写制御回路の心筋リモデリング、Ca2+恒常性における意義2021

Author(s)

Organizer

Data Source

[Presentation] The significance of NRSF-GNAO1-CaMKII transcriptional circuit in myocardial remodeling2021

Author(s)

Organizer

Data Source

[Presentation] CaMK-NRSF-GNAO1 transcriptional circuits participates in the pathological cardiac remodeling2020

Author(s)

Organizer

Data Source

[Presentation] NRSF-GNAO1-CaMK2 axis exacerbates cardiac remodeling and progresses heart failure by impairing Ca2+ homeostasis2020

Author(s)

Organizer

Data Source

[Presentation] Increased Gαo Expression Regulated by NRSF Plays a Key Role in the Development of Heart Failure Through the Impairment of Ca2+ Homeostasis2020

Author(s)

Organizer

Data Source

[Presentation] NRSF-GNAO1-CaMK2 axis exacerbates cardiac remodeling and progresses heart failure by impairing Ca2+ homeostasis2020

Author(s)

Organizer

Data Source

[Presentation] CaMK-NRSF-GNAO1 transcriptional circuits participates in the pathological cardiac remodeling2020

Author(s)

Organizer

Data Source

[Presentation] Increased Gαo Expression Regulated by NRSF Plays a Key Role in the Development of Heart Failure Through the Impairment of Ca2+ Homeostasis2020

Author(s)

Organizer

Data Source

Inazumi Hideaki 稲住英明