片浦 哲志(カタウラ テツシ)
- 所属
- 医学医療系
- 職名
- 助教
- ORCID
- 0000-0002-3958-5232
- 性別
- 男性
- 生年月
- 1992-12
- 研究キーワード
オートファジー 加齢 神経変性疾患 低分子化合物 ライソソーム病 - 研究課題
マイトファジーによる細胞老化防御機構の解明 2024-11 -- 2026-03 片浦哲志 住友財団/基礎科学研究助成 2,500,000円 マイトファジーによる加齢関連細胞変容の防御機構解明と応用 2024-10 -- 2028-03 片浦 哲志 日本医療研究開発機構 (AMED)/革新的先端研究開発支援事業 (AMED-PRIME) 52,000,000円 iPS-パーキンソン病細胞モデルを用いたオートファジー・代謝・細胞死連関の解明 2024-02 -- 2026-03 片浦哲志 日本学術振興会/科研費研究活動スタート支援 2,860,000円 代謝物バイオマーカーを指標とする新規パーキンソン病治療薬の創出研究 2019-04 -- 2021-03 片浦哲志 日本学術振興会/科研費 特別研究員奨励費 2,300,000円 - 職歴
2024-04 -- (現在) 筑波大学医学医療系助教 2020-10 -- (現在) 順天堂大学医学部神経学講座非常勤助教 2023-10 -- 2024-03 Newcastle UniversityBiosciences InstituteFaculty Fellow 2023-07 -- 2023-09 Newcastle UniversityBiosciences InstituteResearch Associate 2021-07 -- 2023-06 Newcaslte UniversityBiosciences InstituteAssociate Researcher 2020-10 -- 2021-03 Newcastle UniversityBiosciences InstituteVisiting Researcher 2020-04 -- 2020-09 順天堂大学医学部神経学講座特任研究員 2019-05 -- 2019-10 Newcastle UniversityBiosciences InstituteVisiting Researcher 2019-04 -- 2020-03 日本学術振興会特別研究員(DC2) - 学歴
2017-04 -- 2020-03 慶應義塾大学大学院 理工学研究科 基礎理工学専攻 2015-04 -- 2017-03 慶應義塾大学大学院 理工学研究科 基礎理工学専攻 2011-04 -- 2015-03 慶應義塾大学 理工学部 生命情報学科 - 取得学位
2020-06 博士(理学) 慶應義塾大学 2017-03 修士(理学) 慶應義塾大学 2015-03 学士(理学) 慶應義塾大学 - 論文
- Comprehensive data for studying serum exosome microRNA transcriptome in Parkinson's disease patients
Yu Zhiyang; Saiki Shinji; Shiina Kenta; Iseki Tatou; ...
Scientific data/11(1)/p.1128, 2024-10-15 - Mitophagy as a guardian against cellular aging
Kataura Tetsushi; Wilson Niall; Ma Gailing; Korolchuk ...
Autophagy/Epub/pp.1-3, 2024-10-14 - Ruthenium complex containing 1,3-thiazolidine-2-thione inhibits hepatic cancer stem cells by suppressing Akt/mTOR signalling and leading to apoptotic and autophagic cell death
Neves Sara P; Bomfim Larissa M; Kataura Tetsushi; Carv...
Biomedicine & Pharmacotherapy/177/p.117059, 2024-07 - Suppressed basal mitophagy drives cellular aging phenotypes that can be reversed by a p62-targeting small molecule
Kelly George; Kataura Tetsushi; Panek Johan; Ma Gaili...
Developmental cell/59(15), 2024-06-18 - Targeting the autophagy-NAD axis protects against cell death in Niemann-Pick type C1 disease models
Kataura Tetsushi; Sedlackova Lucia; Sun Congxin; Kocak...
Cell death & disease/15(5)/p.382, 2024-05-31 - Mitochondrial sodium/calcium exchanger (NCLX) regulates basal and starvation-induced autophagy through calcium signaling
Ramos Vitor M; Serna Julian D C; Vilas-Boas Eloisa A; ...
FASEB journal : official publication of the Federation of American Societies for Experimental Biology/38(3), 2024-02-15 - The evolution of selective autophagy as a mechanism of oxidative stress response: The evolutionarily acquired ability of selective autophagy receptors to respond to oxidative stress is beneficial for human longevity
Ratliffe Joshua; Kataura Tetsushi; Otten Elsje G; Koro...
BioEssays : news and reviews in molecular, cellular and developmental biology/45(11), 2023-11-01 - Analysis of autophagy deficiency and cytotoxicity in autophagy-deficient human embryonic stem cell-derived neurons
Korsgen Miriam E; Sun Congxin; Seranova Elena; Zatyka ...
STAR protocols/4(3), 2023-09-15 - The autophagy-NAD axis in longevity and disease
Wilson Niall; Kataura Tetsushi; Korsgen Miriam E; Sun ...
Trends in cell biology/33(9)/pp.788-802, 2023-09-01 - Metabolic function of autophagy is essential for cell survival
Sedlackova Lucia; Kataura Tetsushi; Sarkar Sovan; Koro...
Autophagy/19(8)/pp.2395-2397, 2023-08-01 - NAD depletion mediates cytotoxicity in human neurons with autophagy deficiency
Sun Congxin; Seranova Elena; Cohen Malkiel A; Chipara ...
Cell reports/42(5), 2023-05-30 - NDP52 acts as a redox sensor in PINK1/Parkin-mediated mitophagy
Kataura Tetsushi; Otten Elsje G; Rabanal-Ruiz Yoana; A...
The EMBO journal/42(5), 2023-03-01 - Autophagy promotes cell survival by maintaining NAD levels.
Kataura Tetsushi; Sedlackova Lucia; Otten Elsje G.; Ku...
Developmental cell/57(22)/pp.2584-2598, 2022-11-21 - Oxidative stress-induced phosphorylation of JIP4 regulates lysosomal positioning in coordination with TRPML1 and ALG2.
Sasazawa Yukiko; Souma Sanae; Furuya Norihiko; Miura ...
The EMBO journal/41(22)/p.e111476, 2022-11-17 - Systemic Metabolic Alteration Dependent on the Thyroid-Liver Axis in Early PD.
Miyamoto Kengo; Saiki Shinji; Matsumoto Hirotaka; Suzu...
Annals of neurology/93/pp.303-316, 2022-09-21 - Plasma taurine is an axonal excitability-translatable biomarker for amyotrophic lateral sclerosis.
Nakazato Tomoko; Kanai Kazuaki; Kataura Tetsushi; Noji...
Scientific reports/12(1)/pp.9155-9155, 2022-06-01 - BRUP-1, an intracellular bilirubin modulator, exerts neuroprotective activity in a cellular Parkinson's disease model.
Kataura Tetsushi; Saiki Shinji; Ishikawa Kei-Ichi; Aka...
Journal of neurochemistry/155(1)/pp.81-97, 2020-10 - A chemical genomics-aggrephagy integrated method studying functional analysis of autophagy inducers.
Kataura Tetsushi; Tashiro Etsu; Nishikawa Shota; Shiba...
Autophagy/17(8)/pp.1-17, 2020-08-07 - Nonthmicin, a Polyether Polyketide Bearing a Halogen-Modified Tetronate with Neuroprotective and Antiinvasive Activity from Actinomadura sp
Igarashi Yasuhiro; Matsuoka Noriaki; In Yasuko; Kataur...
Organic letters/19(6)/pp.1406-1409, 2017-03-17
- Comprehensive data for studying serum exosome microRNA transcriptome in Parkinson's disease patients
(最終更新日: 2024-11-08)