Ashimori Atsushige

Affiliation and department：

Research field (1)： Ophthalmology

Research theme for competitive and other funds (4)：

2024 - 2028 タンパク質制御とビタミンA誘導体による自己の網膜幹細胞の活性化-失明からの回復-
2022 - 2025 角膜ジストロフィ表現型の規定因子の探索
2022 - 2024 NAD+/PARP1経路に着目したRP制御機構の解明
2020 - 2022 Elucidation of the regulatory mechanism of RP by regulating PAPR1 activity

Papers (14)：

Tadahiko Ogata, Atsushige Ashimori, Fumiaki Higashijima, Ayano Sakuma, Waka Hamada, Junki Sunada, Ren Aoki, Masanori Mikuni, Kenichiro Hayashi, Takuya Yoshimoto, et al. HIF-1α-dependent regulation of angiogenic factor expression in Müller cells by mechanical stimulation. Experimental Eye Research. 2024. 247. 110051-110051
Ken'ichiro Hayashi, Masaaki Kobayashi, Kotaro Mori, Yoshiaki Nakagawa, Bunta Watanabe, Atsushige Ashimori, Fumiaki Higashijima, Takuya Yoshimoto, Junki Sunada, Tsuyoshi Morita, et al. The benzoylphenylurea derivative BPU17 acts as an inhibitor of prohibitin and exhibits antifibrotic activity. Experimental Cell Research. 2024. 442. 1. 114221-114221
Lunjie Hu, Saman Azhari, Qianyu Li, Hanzhe Zhang, Atsushige Ashimori, Kazuhiro Kimura, Takeo Miyake. Multi-Electrode Electroretinography with Transparent Microelectrodes Printed on a Soft and Wet Contact Lens. Advanced Materials Technologies. 2024. 9. 16
Atsushige Ashimori, Fumiaki Higashijima, Tadahiko Ogata, Ayano Sakuma, Waka Hamada, Junki Sunada, Ren Aoki, Masanori Mikuni, Ken'ichiro Hayashi, Makiko Wakuta, et al. HIF-1α-dependent upregulation of angiogenic factors by mechanical stimulation in retinal pigment epithelial cells. Disease Models & Mechanisms. 2024. 17. 4
Ken’ichiro Hayashi, Reuben Jacob Labios, Tsuyoshi Morita, Atsushige Ashimori, Ren Aoki, Masanori Mikuni, Kazuhiro Kimura. Significance of the p38MAPK-CRP2 axis in myofibroblastic phenotypic transition. Cell Structure and Function. 2023. 48. 2. 199-210

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MISC (1)：

中畑泰和, Ahamed Rezwana, 芦森温茂, 別所康全, 篠原一之. 老化-NAD+経路による概日時計特性の変化. 日本生理学雑誌. 2020. 82. 2. 34-34

Lectures and oral presentations (7)：

網膜及びRPEにおける機械的刺激による HIF1-αを介した血管新生制御
(日本眼糖尿病学会総会 2024)
Angiogenic factors induced by mechanical stimulation in RPE cells are regulated by HIF-1α
(ARVO 2024)
HIF-1α Dependent Upregulation of Angiogenic Factors by Mechanical Stimulation in Retinal Pigment Epithelial Cells
(2024)
HIF-1α Dependent Upregulation of Angiogenic Factors by Mechanical Stimulation in Retinal Pigment Epithelial Cells
(2024)
HIF-1α Dependent Upregulation of Angiogenic Factors by Mechanical Stimulation
(2024)

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Awards (3)：

2016/11 - International Symposium on Biological Rhythms Poster Award Molecular Mechanism to Lengthen the Circadian Period by Low NAD+
2016/11 - 第23回日本時間生物学会学術大会優秀ポスター賞 Molecular mechanism to lengthen the circadian period by low NAD+
2014 - 日本毒性学会田邊賞

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