Hamada Yoshimasa

Research field (1)： Molecular biology

Research keywords (6)：統合的ストレス応答 , エピジェネティクス , 組織再生 , 概日リズム , 発生生物学 , 小胞体ストレス応答

Research theme for competitive and other funds (2)：

2020 - 2023 ケミカルバイオロジーで拓く統合的ストレス応答を標的とするTh17分化制御薬開発
2014 - 2016 コオロギの概日時計機構におけるエピジェネティック制御

Papers (18)：

Tsutomu Miwata, Hidetaka Suga, Kazuki Mitsumoto, Jun Zhang, Yoshimasa Hamada, Mayu Sakakibara, Mika Soen, Hajime Ozaki, Tomoyoshi Asano, Takashi Miyata, et al. Simplified drug efficacy evaluation system for vasopressin neurodegenerative disease using mouse disease-specific induced pluripotent stem cells. Peptides. 2024. 173. 171151-171151
Jirapat Namkaew, Jun Zhang, Norio Yamakawa, Yoshimasa Hamada, Kazue Tsugawa, Miho Oyadomari, Masato Miyake, Toyomasa Katagiri, Seiichi Oyadomari. Repositioning of mifepristone as an integrated stress response activator to potentiate cisplatin efficacy in non-small cell lung cancer. Cancer letters. 2024. 582. 216509-216509
Mitsuaki Sobajima, Masato Miyake, Yoshimasa Hamada, Kazue Tsugawa, Miho Oyadomari, Ryota Inoue, Jun Shirakawa, Hiroshi Arima, Seiichi Oyadomari. Corrigendum to "The multifaceted role of ATF4 in regulating glucose-stimulated insulin secretion" [Biochem. Biophys. Res. Commun. 611 (2022) 165-171]. Biochemical and biophysical research communications. 2024. 692. 149412-149412
Mitsuaki Sobajima, Masato Miyake, Yoshimasa Hamada, Kazue Tsugawa, Miho Oyadomari, Ryota Inoue, Jun Shirakawa, Hiroshi Arima, Seiichi Oyadomari. The multifaceted role of ATF4 in regulating glucose-stimulated insulin secretion. Biochemical and biophysical research communications. 2022. 611. 165-171
Keisuke Kitakaze, Miho Oyadomari, Jun Zhang, Yoshimasa Hamada, Yasuhiro Takenouchi, Kazuhito Tsuboi, Mai Inagaki, Masanori Tachikawa, Yoshio Fujitani, Yasuo Okamoto, et al. ATF4-mediated transcriptional regulation protects against β-cell loss during endoplasmic reticulum stress in a mouse model. Molecular Metabolism. 2021. 54

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MISC (2)：

板東哲哉, 奥村美紗, 濱田良真, 大内淑代. Toll receptor expressing macrophages promote cricket leg regeneration. 昆虫と自然. 2022. 57. 1
Keisuke Kitakaze, Shusuke Taniuchi, Eri Kawano, Yoshimasa Hamada, Masato Miyake, Miho Oyadomari, Hirotatsu Kojima, Hidetaka Kosako, Tomoko Kuribara, Suguru Yoshida, et al. Identification of a chemical chaperone for mitigating protein aggregation and proteotoxicity during endoplasmic reticulum stress. The FASEB Journal. 2021. 35. S1

Lectures and oral presentations (10)：

薬理・物理的なeIF2αのリン酸化誘導とキナーゼの同定
(第13回小胞体ストレス研究会 2018)
Epigenetic regulation via methylation on histone H3K27 is involved in leg regeneration patterning in the cricket Gryllus bimaculatus
(2016)
Epigenetic factor E(z) is involved in the photoperiodic response of circadian rhythm in the cricket Gryllus bimaculatus
(2015)
Regenerated leg segment patterns are regulated epigenetically by histone H3K27 methylation in the cricket Gryllus bimaculatus
(The 48th Annual Meeting for the Japanese Society of Developmental Biologists 2015)
Epigenetic factor E(z) is involved in the circadian rhythm and leg regeneration in crickets
(2014)

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Association Membership(s) (2)：

日本動物学会 , 日本分子生物学会

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