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Hashizume, Osamu
Graduate School of Engineering, Division of Synthetic Chemistry and Biological Chemistry Assistant Professor
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Last Updated :2025/05/02
Basic Information
Faculty
Email Address
Email Address
hashizume.osamu.7m
kyoto-u.ac.jp
Academic Degree
Academic Resume (Undergraduate School/Majors)
Research History
- From Dec. 2022, To PresentKyoto University, Graduate School of Engineering, 助教
- From Apr. 2022, To Nov. 2022Osaka University, Research Institute for Microbial Diseases, 助教
- From Apr. 2015, To Mar. 2022Osaka University, Research Institute for Microbial Diseases, 特任研究員
- From Aug. 2014, To Mar. 2015University of Tsukuba, Faculty of Life and Environmental Sciences, 研究員
- From Apr. 2014, To Sep. 2014University of Tsukuba, 生命環境科学研究科, 研究生
- From Dec. 2012, To Mar. 2014University of Tsukuba, Faculty of Life and Environmental Sciences, 博士研究員
ID,URL
J-Global ID
researchmap URL
list
Last Updated :2025/05/02
Research
Research Areas
Papers
- Intestinal Mg2+ accumulation induced by cnnm mutations decreases the body size by suppressing TORC2 signaling in Caenorhabditis elegans.Osamu Hashizume; Tomofumi Kawabe; Yosuke Funato; Hiroaki MikiDevelopmental biology, May 2024, Peer-reviewed
- Phosphatase-independent role of phosphatase of regenerating liver in cancer progression.Yosuke Funato; Osamu Hashizume; Hiroaki MikiCancer science, 26 Oct. 2022, Peer-reviewed
- Role of adenomatous polyposis coli in proliferation and differentiation of colon epithelial cells in organoid culture.Daisuke Yamazaki; Osamu Hashizume; Shiho Taniguchi; Yosuke Funato; Hiroaki MikiScientific reports, 17 Feb. 2021, Peer-reviewed
- The Oncogenic PRL Protein Causes Acid Addiction of Cells by Stimulating Lysosomal Exocytosis.Yosuke Funato; Atsushi Yoshida; Yusuke Hirata; Osamu Hashizume; Daisuke Yamazaki; Hiroaki MikiDevelopmental cell, 23 Nov. 2020, Peer-reviewed
- Excessive Mg2+ Impairs Intestinal Homeostasis by Enhanced Production of Adenosine Triphosphate and Reactive Oxygen Species.Osamu Hashizume; Yosuke Funato; Daisuke Yamazaki; Hiroaki MikiAntioxidants & redox signaling, 01 Jul. 2020, Peer-reviewed
- Mice deficient in the Shmt2 gene have mitochondrial respiration defects and are embryonic lethalHaruna Tani; Sakiko Ohnishi; Hiroshi Shitara; Takayuki Mito; Midori Yamaguchi; Hiromichi Yonekawa; Osamu Hashizume; Kaori Ishikawa; Kazuto Nakada; Jun Ichi HayashiScientific Reports, 01 Dec. 2018, Peer-reviewed
- Mg2+ Extrusion from Intestinal Epithelia by CNNM Proteins Is Essential for Gonadogenesis via AMPK-TORC1 Signaling in Caenorhabditis elegans.Tasuku Ishii; Yosuke Funato; Osamu Hashizume; Daisuke Yamazaki; Yusuke Hirata; Kiyoji Nishiwaki; Nozomu Kono; Hiroyuki Arai; Hiroaki MikiPLoS genetics, Aug. 2016, Peer-reviewed
- Mutations in mitochondrial DNA regulate mitochondrial diseases and metastasis but do not regulate agingJun Ichi Hayashi; Osamu Hashizume; Kaori Ishikawa; Akinori ShimizuCurrent Opinion in Genetics and Development, 01 Jun. 2016, Peer-reviewed
- Mitochonic acid 5 binds mitochondria and ameliorates renal tubular and cardiac myocyte damageTakehiro Suzuki; Hiroaki Yamaguchi; Motoi Kikusato; Osamu Hashizume; Satoru Nagatoishi; Akihiro Matsuo; Takeya Sato; Tai Kudo; Tetsuro Matsuhashi; Kazutaka Murayama; Yuki Ohba; Shun Watanabe; Shin Ichiro Kanno; Daichi Minaki; Daisuke Saigusa; Hiroko Shinbo; Nobuyoshi Mori; Akinori Yuri; Miyuki Yokoro; Eikan Mishima; Hisato Shima; Yasutoshi Akiyama; Yoichi Takeuchi; Koichi Kikuchi; Takafumi Toyohara; Chitose Suzuki; Takaharu Ichimura; Jun Ichi Anzai; Masahiro Kohzuki; Nariyasu Mano; Shigeo Kure; Teruyuki Yanagisawa; Yoshihisa Tomioka; Masaaki Toyomizu; Kohei Tsumoto; Kazuto Nakada; Joseph V. Bonventre; Sadayoshi Ito; Hitoshi Osaka; Ken Ichi Hayashi; Takaaki AbeJournal of the American Society of Nephrology, 2016, Peer-reviewed
- Erratum: Epigenetic regulation of the nuclear-coded GCAT and SHMT2 genes confers human age-associated mitochondrial respiration defects (Scientific Reports (2015) 5 (10434)) DOI: 10.1038/srep10434)Osamu Hashizume; Sakiko Ohnishi; Takayuki Mito; Akinori Shimizu; Kaori Ishikawa; Kazuto Nakada; Manabu Soda; Hiroyuki Mano; Sumie Togayachi; Hiroyuki Miyoshi; Keisuke Okita; Jun Ichi HayashiScientific Reports, 05 Oct. 2015, Peer-reviewed
- G7731A mutation in mouse mitochondrial tRNALys regulates late-onset disorders in transmitochondrial miceAkinori Shimizu; Takayuki Mito; Osamu Hashizume; Hiromichi Yonekawa; Kaori Ishikawa; Kazuto Nakada; Jun Ichi HayashiBiochemical and Biophysical Research Communications, 30 May 2015, Peer-reviewed
- A specific nuclear DNA background is required for high frequency lymphoma development in transmitochondrial mice with G13997A mtDNAOsamu Hashizume; Haruka Yamanashi; Makoto M. Taketo; Kazuto Nakada; Jun Ichi HayashiPLoS ONE, 04 Mar. 2015, Peer-reviewed
- Selection of rodent species appropriate for mtDNA transfer to generate transmitochondrial mito-mice expressing mitochondrial respiration defectsShunkei Enoki; Akinori Shimizu; Chisato Hayashi; Hirotake Imanishi; Osamu Hashizume; Kazuyuki Mekada; Hitoshi Suzuki; Tetsuo Hashimoto; Kazuto Nakada; Jun Ichi HayashiExperimental Animals, 2014, Peer-reviewed
- Administration of an antioxidant prevents lymphoma development in transmitochondrial mice overproducing reactive oxygen speciesHaruka Yamanashi; Osamu Hashizume; Hiromichi Yonekawa; Kazuto Nakada; Jun Ichi HayashiExperimental Animals, 2014, Peer-reviewed
- Mitochondrial DNA Mutations in Mutator Mice Confer Respiration Defects and B-Cell Lymphoma DevelopmentTakayuki Mito; Yoshiaki Kikkawa; Akinori Shimizu; Osamu Hashizume; Shun Katada; Hirotake Imanishi; Azusa Ota; Yukina Kato; Kazuto Nakada; Jun Ichi HayashiPLoS ONE, 13 Feb. 2013, Peer-reviewed
- Specific mitochondrial DNA mutation in mice regulates diabetes and lymphoma developmentOsamu Hashizume; Akinori Shimizu; Mutsumi Yokota; Atsuko Sugiyama; Kazuto Nakada; Hiroyuki Miyoshi; Makiko Itami; Miki Ohira; Hiroki Nagase; Keizo Takenaga; Jun Ichi HayashiProceedings of the National Academy of Sciences of the United States of America, 26 Jun. 2012, Peer-reviewed
- Generation of trans-mitochondrial mito-mice by the introduction of a pathogenic G13997A mtDNA from highly metastatic lung carcinoma cellsMutsumi Yokota; Hiroshi Shitara; Osamu Hashizume; Kaori Ishikawa; Kazuto Nakada; Rie Ishii; Choji Taya; Keizo Takenaga; Hiromichi Yonekawa; Jun Ichi HayashiFEBS Letters, Sep. 2010, Peer-reviewed
- Enhanced glycolysis induced by mtDNA mutations does not regulate metastasisKaori Ishikawa; Osamu Hashizume; Nobuko Koshikawa; Sayaka Fukuda; Kazuto Nakada; Keizo Takenaga; Jun Ichi HayashiFEBS Letters, 15 Oct. 2008, Peer-reviewed
Misc.
Presentations
- cnnm変異により線虫のボディサイズが縮小する仕組みの解析橋爪 脩、川邊 智史、船戸 洋佑、三木 裕明第44回日本分子生物学会年会, Dec. 2021
- 細胞内でのマグネシウム蓄積が引き起こす過剰な ROS と ATP 産生橋爪脩ミトコンドリアサイエンスワークショプ, 14 May 2019
- 過剰なマグネシウムが引き起こすミトコンドリアでの活性酸素種とATPの過剰産生橋爪脩; 船戸洋佑; 三木裕明第18回 日本ミトコンドリア学会年会, Dec. 2018
- 過剰なマグネシウムが引き起こすミトコンドリアでのATPとROSの過剰産生橋爪脩; 船戸洋佑; 三木裕明第91回 日本生化学会大会, Sep. 2018
- Overproduction of ATP and reactive oxygen species in mitochondria by excessive magnesium橋爪脩微生物病研究所 平成29年度研究業績発表会, 2018
- 細胞内Mg2+の過剰蓄積が活性酸素種(ROS)レベル上昇と線虫の寿命短縮を引き起こす橋爪脩; 船戸洋佑; 三木裕明新学術領域 酸素生物学・ダイイングコード合同若手会議, 2018
- Mg2+トランスポーターCNNMは線虫でROSレベルと寿命を調節する橋爪脩; 船戸洋佑; 三木裕明生命科学系学会合同年次大会, 2017
- ROSを過剰産生する変異型mtDNA導入マウスへの抗酸化剤投与による病態抑制効果の検証橋爪脩; 山梨晴香; 中田和人; 林純一日本ミトコンドリア学会 第14回年会, 2014
- 核-ミトコンドリアゲノム間の機能的不和合性を導入したモデル生物の作出橋爪脩; 中田和人; 林純一第二回マトリョーシカ型生物学研究会, 2013
- ROS産生を伴う変異型mtDNAを導入したマウスの病態解析橋爪脩; 中田和人; 林純一日本ミトコンドリア学会 第12回年会, 2012
- ROSを過産生させる変異型mtDNAを導入したマウスの病態解析橋爪脩; 中田和人; 林純一第一回マトリョーシカ型生物学研究会・全体班会議, 2012
- mtDNA突然変異による解糖系亢進ががん転移能に与える影響の解析橋爪脩; 中田和人; 林純一日本ミトコンドリア学会 第9回年会, 2009
Awards
External funds: Kakenhi
- ミトコンドリアからリソソームへの特異的な活性酸素シグナル伝達機構Grant-in-Aid for Scientific Research (C)Basic Section 44010:Cell biology-relatedKyoto University橋爪 脩From 01 Apr. 2022, To 31 Mar. 2025, Grantedマグネシウム;活性酸素種;ミトコンドリア;リソソーム;TRPML;酸性環境
- Mitochondrial energy metabolism abnormalities and cancer malignancy induced by excess Mg ions.Grant-in-Aid for Early-Career ScientistsBasic Section 44010:Cell biology-relatedKyoto University;Osaka UniversityOsamu HashizumeFrom 01 Apr. 2019, To 31 Mar. 2023, Project ClosedMg2+;CNNM;PRL;ATP;ミトコンドリア;がん悪性化;マグネシウム;活性酸素種;エネルギー代謝;ROS;腸上皮細胞;酸化ストレス;NADH;酸素消費;トランスポーター
- The mechanism of blood pressure regulation associated with magnesium reabsorptionGrant-in-Aid for Young Scientists (B)Osaka UniversityOsamu HashizumeFrom 01 Apr. 2016, To 31 Mar. 2020, Project Closedマグネシウム;腎臓;血圧;レニン;CNNM2;TRPM6;再吸収;腎臓遠位尿細管;血圧調節;マグネシウム再吸収;レドックス
- マグネシウム再吸収を介した新たな血圧調節機構の解明Grant-in-Aid for Research Activity Start-upOsaka University橋爪 脩From 28 Aug. 2015, To 31 Mar. 2016, Project Closed血圧調節;マグネシウム;トランポーター;酸化ストレス
