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Your search keyword '"Homma, Hidenori"' showing total 28 results
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28 results on '"Homma, Hidenori"'

6. Identification of hepta-histidine as a candidate drug for Huntington's disease by in silico-in vitro- in vivo-integrated screens of chemical libraries.

Author

Imamura, Tomomi, Fujita, Kyota, Tagawa, Kazuhiko, Ikura, Teikichi, Chen, Xigui, Homma, Hidenori, Tamura, Takuya, Mao, Ying, Taniguchi, Juliana Bosso, Motoki, Kazumi, Nakabayashi, Makoto, Ito, Nobutoshi, Yamada, Kazunori, Tomii, Kentaro, Okano, Hideyuki, Kaye, Julia, Finkbeiner, Steven, and Okazawa, Hitoshi

Abstract

We identified drug seeds for treating Huntington's disease (HD) by combining in vitro single molecule fluorescence spectroscopy, in silico molecular docking simulations, and in vivo fly and mouse HD models to screen for inhibitors of abnormal interactions between mutant Htt and physiological Ku70, an essential DNA damage repair protein in neurons whose function is known to be impaired by mutant Htt. From 19,468 and 3,010,321 chemicals in actual and virtual libraries, fifty-six chemicals were selected from combined in vitro-in silico screens; six of these were further confirmed to have an in vivo effect on lifespan in a fly HD model, and two chemicals exerted an in vivo effect on the lifespan, body weight and motor function in a mouse HD model. Two oligopeptides, hepta-histidine (7H) and Angiotensin III, rescued the morphological abnormalities of primary neurons differentiated from iPS cells of human HD patients. For these selected drug seeds, we proposed a possible common structure. Unexpectedly, the selected chemicals enhanced rather than inhibited Htt aggregation, as indicated by dynamic light scattering analysis. Taken together, these integrated screens revealed a new pathway for the molecular targeted therapy of HD.

Published
2016

12. YAP-dependent necrosis occurs in early stages of Alzheimer’s disease and regulates mouse model pathology

Author

Tanaka, Hikari, Homma, Hidenori, Fujita, Kyota, Kondo, Kanoh, Yamada, Shingo, Jin, Xiaocen, Waragai, Masaaki, Ohtomo, Gaku, Iwata, Atsushi, Tagawa, Kazuhiko, Atsuta, Naoki, Katsuno, Masahisa, Tomita, Naoki, Furukawa, Katsutoshi, Saito, Yuko, Saito, Takashi, Ichise, Ayaka, Shibata, Shinsuke, Arai, Hiroyuki, Saido, Takaomi, Sudol, Marius, Muramatsu, Shin-ichi, Okano, Hideyuki, Mufson, Elliott J., Sobue, Gen, Murayama, Shigeo, and Okazawa, Hitoshi

Published
2020
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16. Hepta-Histidine Inhibits Tau Aggregation

Author

Kondo, Kanoh, primary, Ikura, Teikichi, additional, Tanaka, Hikari, additional, Fujita, Kyota, additional, Takayama, Sumire, additional, Yoshioka, Yuki, additional, Tagawa, Kazuhiko, additional, Homma, Hidenori, additional, Liu, Su, additional, Kawasaki, Ryosuke, additional, Huang, Yong, additional, Ito, Nobutoshi, additional, Tate, Shin-ichi, additional, and Okazawa, Hitoshi, additional

Published
2021
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17. DNA damage in embryonic neural stem cell determines FTLDs’ fate via early-stage neuronal necrosis

Author

Homma, Hidenori, primary, Tanaka, Hikari, additional, Jin, Meihua, additional, Jin, Xiaocen, additional, Huang, Yong, additional, Yoshioka, Yuki, additional, Bertens, Christian JF, additional, Tsumaki, Kohei, additional, Kondo, Kanoh, additional, Shiwaku, Hiroki, additional, Tagawa, Kazuhiko, additional, Akatsu, Hiroyasu, additional, Atsuta, Naoki, additional, Katsuno, Masahisa, additional, Furukawa, Katsutoshi, additional, Ishiki, Aiko, additional, Waragai, Masaaki, additional, Ohtomo, Gaku, additional, Iwata, Atsushi, additional, Yokota, Takanori, additional, Inoue, Haruhisa, additional, Arai, Hiroyuki, additional, Sobue, Gen, additional, Sone, Masaki, additional, Fujita, Kyota, additional, and Okazawa, Hitoshi, additional

Published
2021
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21. Targeting TEAD/YAP-transcription-dependent necrosis, TRIAD, ameliorates Huntington’s disease pathology

Author

Mao, Ying, primary, Chen, Xigui, additional, Xu, Min, additional, Fujita, Kyota, additional, Motoki, Kazumi, additional, Sasabe, Toshikazu, additional, Homma, Hidenori, additional, Murata, Miho, additional, Tagawa, Kazuhiko, additional, Tamura, Takuya, additional, Kaye, Julia, additional, Finkbeiner, Steven, additional, Blandino, Giovanni, additional, Sudol, Marius, additional, and Okazawa, Hitoshi, additional

Published
2016
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22. HMGB1, a pathogenic molecule that induces neurite degeneration via TLR4-MARCKS, is a potential therapeutic target for Alzheimer’s disease

Author

Fujita, Kyota, primary, Motoki, Kazumi, additional, Tagawa, Kazuhiko, additional, Chen, Xigui, additional, Hama, Hiroshi, additional, Nakajima, Kazuyuki, additional, Homma, Hidenori, additional, Tamura, Takuya, additional, Watanabe, Hirohisa, additional, Katsuno, Masahisa, additional, Matsumi, Chiemi, additional, Kajikawa, Masunori, additional, Saito, Takashi, additional, Saido, Takaomi, additional, Sobue, Gen, additional, Miyawaki, Atsushi, additional, and Okazawa, Hitoshi, additional

Published
2016
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23. RpA1 ameliorates symptoms of mutant ataxin-1 knock-in mice and enhances DNA damage repair

Author

Taniguchi, Juliana Bosso, primary, Kondo, Kanoh, additional, Fujita, Kyota, additional, Chen, Xigui, additional, Homma, Hidenori, additional, Sudo, Takeaki, additional, Mao, Ying, additional, Watase, Kei, additional, Tanaka, Toshihiro, additional, Tagawa, Kazuhiko, additional, Tamura, Takuya, additional, Muramatsu, Shin-Ichi, additional, and Okazawa, Hitoshi, additional

Published
2016
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26. Comprehensive phosphoproteome analysis unravels the core signaling network that initiates the earliest synapse pathology in preclinical Alzheimer's disease brain

Author

Tagawa, Kazuhiko, primary, Homma, Hidenori, additional, Saito, Ayumu, additional, Fujita, Kyota, additional, Chen, Xigui, additional, Imoto, Seiya, additional, Oka, Tsutomu, additional, Ito, Hikaru, additional, Motoki, Kazumi, additional, Yoshida, Chisato, additional, Hatsuta, Hiroyuki, additional, Murayama, Shigeo, additional, Iwatsubo, Takeshi, additional, Miyano, Satoru, additional, and Okazawa, Hitoshi, additional

Published
2014
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28. Loss of function of VCP/TER94 causes neurodegeneration in the Drosophila central nervous system.

Author

Tsumaki K, Bertens CJF, Nakayama M, Kato S, Jonao Y, Kuribayashi A, Sato K, Ishiyama S, Asakawa M, Aihara R, Yoshioka Y, Homma H, Tanaka H, Fujita K, Okazawa H, and Sone M

Abstract

Mutations in several genes are linked to human frontotemporal lobar degeneration (FTLD) associated with TDP43- and/or ubiquitin-positive inclusions. However, it is not yet clear whether the underlying mechanism is a gain-of-function or a loss-of-function. To answer this question, we used Drosophila expressing RNAi against the FTLD-associated gene, TER94 (an ortholog of VCP/p97) and found that the knockdown (KD) of this gene caused premature lethality, a reduction in brain volume and alterations in the morphology of mushroom bodies. The changes caused by TER94 KD were rescued by wild-type TER94 but not by the human disease-linked A229E mutant, indicating that this mutant causes a loss-of-function. Alterations were also observed in pupal brains and were partially rescued by coexpression of MCM2, which is involved in control of the cell cycle. This is suggesting that dysregulation of neuronal proliferation caused the phenotypes. We also found that TER94 KD caused the disappearance of TBPH (an ortholog of TDP43/TARDBP) from nuclei. These data from Drosophila genetics suggest that VCP-linked FTLD is caused by a loss-of-function of VCP., (© 2024. Published by The Company of Biologists Ltd.)

Published
2024
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