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Yoshinaga, Masanori
Graduate School of Medicine, Medicine Assistant Professor
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Last Updated :2025/04/23
Basic Information
Faculty
Professional Memberships
Academic Degree
Research History
- From Oct. 2024, To PresentKyoto University, FOREST Principle Investigator
- From Apr. 2020, To Present京都大学大学院医学研究科 医化学分野, 助教
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J-Global ID
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Last Updated :2025/04/23
Research
Research Areas
- Life sciences, Nutrition and health science
- Life sciences, Molecular biology
- Life sciences, Immunology
- Life sciences, Medical biochemistry
Papers
- UPF1 plays critical roles in early B cell development.Noriki Iwai; Kotaro Akaki; Fabian Hia; Wei Li; Masanori Yoshinaga; Takashi Mino; Osamu TakeuchiNature communications, 09 Jul. 2024, Peer-reviewed
- Regulation of inflammatory diseases via the control of mRNA decay.Masanori Yoshinaga; Osamu TakeuchiInflammation and regeneration, 15 Mar. 2024, Peer-reviewed, Invited, Lead author, Corresponding author
- RNA Metabolism Governs Immune Function and Response.Masanori Yoshinaga; Osamu TakeuchiAdvances in experimental medicine and biology, 2024, Invited, Lead author
- The crossroads of RNA methylation and ferroptosis: Implications for disease pathogenesisMasanori YoshinagaClinical and Translational Discovery, 07 Nov. 2023, Corresponding author
- The N6-methyladenosine methyltransferase METTL16 enables erythropoiesis through safeguarding genome integrity.Masanori Yoshinaga; Kyuho Han; David W Morgens; Takuro Horii; Ryosuke Kobayashi; Tatsuaki Tsuruyama; Fabian Hia; Shota Yasukura; Asako Kajiya; Ting Cai; Pedro H C Cruz; Alexis Vandenbon; Yutaka Suzuki; Yukio Kawahara; Izuho Hatada; Michael C Bassik; Osamu TakeuchiNature communications, 28 Oct. 2022, Peer-reviewed, Lead author, Corresponding author
- Regnase-1 Prevents Pulmonary Arterial Hypertension Through mRNA Degradation of Interleukin-6 and Platelet-Derived Growth Factor in Alveolar Macrophages.Ai Yaku; Tadakatsu Inagaki; Ryotaro Asano; Makoto Okazawa; Hiroyoshi Mori; Ayuko Sato; Fabian Hia; Takeshi Masaki; Yusuke Manabe; Tomohiko Ishibashi; Alexis Vandenbon; Yoshinari Nakatsuka; Kotaro Akaki; Masanori Yoshinaga; Takuya Uehata; Takashi Mino; Satoshi Morita; Hatsue Ishibashi-Ueda; Akio Morinobu; Tohru Tsujimura; Takeshi Ogo; Yoshikazu Nakaoka; Osamu TakeuchiCirculation, 23 Aug. 2022, Peer-reviewed
- Enhancement of Regnase-1 expression with stem loop-targeting antisense oligonucleotides alleviates inflammatory diseases.Ka Man Tse; Alexis Vandenbon; Xiaotong Cui; Takashi Mino; Takuya Uehata; Keiko Yasuda; Ayuko Sato; Tohru Tsujimura; Fabian Hia; Masanori Yoshinaga; Makoto Kinoshita; Tatsusada Okuno; Osamu TakeuchiScience translational medicine, 11 May 2022, Peer-reviewed
- Cyclin J-CDK complexes limit innate immune responses by reducing proinflammatory changes in macrophage metabolism.Yee Kien Chong; Sarang Tartey; Yuki Yoshikawa; Koshi Imami; Songling Li; Masanori Yoshinaga; Ai Hirabayashi; Guohao Liu; Alexis Vandenbon; Fabian Hia; Takuya Uehata; Takashi Mino; Yutaka Suzuki; Takeshi Noda; Dominique Ferrandon; Daron M Standley; Yasushi Ishihama; Osamu TakeuchiScience signaling, 12 Apr. 2022, Peer-reviewed
- TANK prevents IFN-dependent fatal diffuse alveolar hemorrhage by suppressing DNA-cGAS aggregation.Atsuko Wakabayashi; Masanori Yoshinaga; Osamu TakeuchiLife science alliance, Feb. 2022, Peer-reviewed
- Profibrotic function of pulmonary group 2 innate lymphoid cells is controlled by Regnase-1.Yoshinari Nakatsuka; Ai Yaku; Tomohiro Handa; Alexis Vandenbon; Yuki Hikichi; Yasutaka Motomura; Ayuko Sato; Masanori Yoshinaga; Kiminobu Tanizawa; Kizuku Watanabe; Toyohiro Hirai; Kazuo Chin; Yutaka Suzuki; Takuya Uehata; Takashi Mino; Tohru Tsujimura; Kazuyo Moro; Osamu TakeuchiThe European respiratory journal, 25 Sep. 2020, Peer-reviewed
- Codon bias confers stability to human mRNAs.Fabian Hia; Sheng Fan Yang; Yuichi Shichino; Masanori Yoshinaga; Yasuhiro Murakawa; Alexis Vandenbon; Akira Fukao; Toshinobu Fujiwara; Markus Landthaler; Tohru Natsume; Shungo Adachi; Shintaro Iwasaki; Osamu TakeuchiEMBO reports, 05 Nov. 2019, Peer-reviewed
- RNA binding proteins in the control of autoimmune diseases.Masanori Yoshinaga; Osamu TakeuchiImmunological medicine, Jun. 2019, Peer-reviewed, Lead author
- Post-transcriptional control of immune responses and its potential application.Masanori Yoshinaga; Osamu TakeuchiClinical & translational immunology, 2019, Peer-reviewed, Lead author
- Pulmonary Regnase-1 orchestrates the interplay of epithelium and adaptive immune systems to protect against pneumonia.Yoshinari Nakatsuka; Alexis Vandenbon; Takashi Mino; Masanori Yoshinaga; Takuya Uehata; Xiaotong Cui; Ayuko Sato; Tohru Tsujimura; Yutaka Suzuki; Atsuyasu Sato; Tomohiro Handa; Kazuo Chin; Teiji Sawa; Toyohiro Hirai; Osamu TakeuchiMucosal immunology, Jul. 2018, Peer-reviewed
- Regnase-1 and Roquin Nonredundantly Regulate Th1 Differentiation Causing Cardiac Inflammation and Fibrosis.Xiaotong Cui; Takashi Mino; Masanori Yoshinaga; Yoshinari Nakatsuka; Fabian Hia; Daichi Yamasoba; Tohru Tsujimura; Keizo Tomonaga; Yutaka Suzuki; Takuya Uehata; Osamu TakeuchiJournal of immunology (Baltimore, Md. : 1950), 15 Dec. 2017, Peer-reviewed
- Regnase-1 Maintains Iron Homeostasis via the Degradation of Transferrin Receptor 1 and Prolyl-Hydroxylase-Domain-Containing Protein 3 mRNAs.Masanori Yoshinaga; Yoshinari Nakatsuka; Alexis Vandenbon; Daisuke Ori; Takuya Uehata; Tohru Tsujimura; Yutaka Suzuki; Takashi Mino; Osamu TakeuchiCell reports, 23 May 2017, Peer-reviewed, Lead author
- Moesin controls clathrin-mediated S1PR1 internalization in T cells.Akira Nomachi; Masanori Yoshinaga; Jaron Liu; Pakorn Kanchanawong; Kiyoshi Tohyama; Dean Thumkeo; Takeshi Watanabe; Shuh Narumiya; Takako HirataPloS one, 2013, Peer-reviewed
Misc.
- 自己指向性免疫学の新展開 生体防御における自己認識の功罪(Vol.8) RNA修飾破綻による自己指向性免疫応答吉永 正憲医学のあゆみ, Aug. 2024, Invited, Last author, Corresponding author
- RNA修飾が織りなす免疫制御メカニズム吉永正憲臨床免疫・アレルギー科, Oct. 2023, Invited, Lead author, Corresponding author
- 免疫学 RNA分解酵素Regnase-1を標的とした炎症制御法の開発吉永 正憲; 竹内 理医学のあゆみ, Jan. 2023
- がん免疫療法における免疫チェックポイント機構とマクロファージのはたらき吉永正憲; 竹内理Trends in Cancer Immunology, 2020
- Identification of a novel post-transcriptional regulator in erythroid differentiation吉永正憲; 竹内理日本分子生物学会年会プログラム・要旨集(Web), 2021
- 鉄代謝を制御する転写後調節機構の解明吉永正憲; 三野享史; BASSIK Michael C; 竹内理日本RNA学会年会要旨集, 2018
- Regnase-1は鉄代謝関連のmRNAを分解することで鉄恒常性を維持する吉永正憲; 三野享史; 竹内理日本分子生物学会年会プログラム・要旨集(Web), 2018
- RNA分解酵素Regnase-1による鉄代謝制御機構竹内理; 吉永正憲日本鉄バイオサイエンス学会学術集会プログラム・抄録集, 2018
- Regnase-1は鉄代謝関連のmRNAを分解することで鉄恒常性を維持する吉永正憲; 三野享史; 竹内理日本生化学会大会(Web), 2017
- Regnase-1は鉄代謝関連のmRNAを分解することで鉄恒常性を維持する吉永正憲; 三野享史; 竹内理日本RNA学会年会要旨集, 2017
- 生理学・医学賞 免疫を抑制する分子"PD-1"とがん免疫療法 (2018年ノーベル賞を読み解く)吉永 正憲; 竹内 理化学 = Chemistry, Dec. 2018
- 【がんは免疫系をいかに抑制するのか 免疫チェックポイント阻害剤の真の標的を求めて】TAM・MDSCによる免疫抑制機構吉永 正憲; 竹内 理実験医学, Jun. 2018
- 生化学・分子生物学 RNA分解酵素Regnase-1による鉄代謝制御吉永 正憲; 竹内 理医学のあゆみ, Apr. 2018
- Pulmonary Regnase-1 functions as a posttranscriptional switch in anti-bacterial immunityYoshinari Nakatsuka; Takashi Mino; Masanori Yoshinaga; Takuya Uehata; Atsuyasu Sato; Tomohiro Handa; Kazuo Chin; Toyohiro Hirai Hirai; Osamu TakeuchiCYTOKINE, Dec. 2017
- 【慢性炎症性疾患の新たな展開】慢性炎症のメカニズム 慢性炎症における炎症性サイトカインの新たな制御機構吉永 正憲; 竹内 理最新医学, Nov. 2016
- 【マクロファージのすべて】基礎 炎症性サイトカインIL-6とその転写後調節吉永 正憲; 竹内 理医学のあゆみ, Oct. 2016
- 炎症制御の分子機構吉永 正憲; 竹内 理臨床免疫・アレルギー科, Oct. 2015
Presentations
- TBAMasanori YoshinagaRIBOSOME Meeting 2024 in JAPAN, Dec. 2024, Invited
- 転写後調節を介した鉄代謝・赤血球造血制御吉永正憲第48回日本鉄バイオサイエンス学会学術集会, 30 Aug. 2024, Invited
- mRNAの制御破綻による自己指向性免疫応答の解明吉永正憲学術変革領域研究(A)自己指向性免疫学 第64回オンラインJournal Club, 03 Jul. 2024, Invited
- RNAに対する自己指向性免疫応答の解明吉永正憲学術変革領域研究(A)自己指向性免疫学 令和6年度領域会議, 13 Jun. 2024, Invited
- RNAメチル化修飾を介した細胞機能の調節吉永正憲The 3rd Kansai RNA Club, 25 Mar. 2024, Invited
- Unraveling metabolic reprogramming of macrophages through the lens of evolutionary and forward geneticsMasanori YoshinagaInternational Symposium on Emerging RNA Viruses, 07 Dec. 2023, Invited
- Regulation of hematopoietic cell differentiation and functions by RNA methylationMasanori Yoshinaga第101回日本生理学会大会, 30 Mar. 2024, Invited
- 転写後調節を介した造血・代謝制御機構吉永正憲群馬大学生体調節研究所 内分泌・代謝学共同研究拠点成果報告会・ワークショップ, 15 Dec. 2023, Invited
- mRNAの制御破綻による自己指向性免疫応答の解明吉永正憲学術変革領域研究(A)自己指向性免疫学 第28回オンラインJournal Club, 13 Sep. 2023, Invited
- 転写後調節を介した赤血球造血制御機構の解明吉永正憲第18回血液学若手研究者勉強会(麒麟塾), 01 Jul. 2023, Invited
- RNAメチル化修飾破綻による自己指向性免疫応答の解明吉永正憲学術変革領域研究(A)自己指向性免疫学 令和 5 年度領域会議, 09 May 2023, Invited
- Identification of post-transcriptional regulators in iron metabolism and erythropoiesisMasanori YoshinagaThe 2nd Course Meeting of Immunology, Allergy, and Infection Course 2020, 10 Jun. 2020, Invited
- Identification of posttranscriptional regulators in iron metabolismMasanori Yoshinaga第20回日本RNA学会年会, 09 Jul. 2018, Invited
- The ribonuclease Regnase-1 maintains iron homeostasis by regulating duodenal iron uptakeMasanori YoshinagaThe 9th Course Meeting of Immunology, Allergy, and Infection Course 2016, 08 Feb. 2017, Invited
External funds: Kakenhi
- RNA修飾を介した赤芽球分化制御機構の解明Grant-in-Aid for Early-Career ScientistsBasic Section 49010:Pathological biochemistry-relatedKyoto University吉永 正憲From 01 Apr. 2021, To 31 Mar. 2024, GrantedRNA修飾;赤芽球分化
- Posttranscriptional regulation of iron metabolism via RNA methylationGrant-in-Aid for Research Activity Start-up0802:Biomedical structure and function and related fieldsKyoto UniversityMasanori YoshinagaFrom 11 Sep. 2020, To 31 Mar. 2022, Project ClosedRNA修飾;鉄代謝;赤芽球分化;CRISPRスクリーニング
- RNAメチル化修飾破綻による自己指向性免疫応答の解明Grant-in-Aid for Transformative Research Areas (A)Transformative Research Areas, Section (III)Kyoto University吉永 正憲From 01 Apr. 2023, To 31 Mar. 2025, GrantedRNA修飾;炎症制御
- アミノ酸代謝が司る代謝リプログラミング機構の解明Grant-in-Aid for Early-Career ScientistsBasic Section 59040:Nutrition science and health science-relatedKyoto University吉永 正憲From 01 Apr. 2024, To 31 Mar. 2026, Granted炎症制御;代謝制御;マクロファージ
