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

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

doi:10.1038/srep33861

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

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

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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.

Original language	English
Article number	33861
Journal	Scientific reports
Volume	6
DOIs	https://doi.org/10.1038/srep33861
Publication status	Published - 2016 Sept 22

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Imamura, T., Fujita, K., Tagawa, K., Ikura, T., Chen, X., Homma, H., Tamura, T., Mao, Y., Taniguchi, J. B., Motoki, K., Nakabayashi, M., Ito, N., Yamada, K., Tomii, K., Okano, H., Kaye, J., Finkbeiner, S., & Okazawa, H. (2016). Identification of hepta-histidine as a candidate drug for Huntington's disease by in silico-in vitro- in vivo-integrated screens of chemical libraries. Scientific reports, 6, [33861]. https://doi.org/10.1038/srep33861

Imamura, T, Fujita, K, Tagawa, K, Ikura, T, Chen, X, Homma, H, Tamura, T, Mao, Y, Taniguchi, JB, Motoki, K, Nakabayashi, M, Ito, N, Yamada, K, Tomii, K, Okano, H, Kaye, J, Finkbeiner, S & Okazawa, H 2016, 'Identification of hepta-histidine as a candidate drug for Huntington's disease by in silico-in vitro- in vivo-integrated screens of chemical libraries', Scientific reports, vol. 6, 33861. https://doi.org/10.1038/srep33861

@article{543d95a158a942cd9bf3c1f46d08cb6a,

title = "Identification of hepta-histidine as a candidate drug for Huntington's disease by in silico-in vitro- in vivo-integrated screens of chemical libraries",

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.",

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

note = "Funding Information: This work was supported by CREST from the Japan Science and Technology Agency (JST), a Grant-in-Aid for Scientific Research from the Japan Society for the Promotion of Science (JSPS) (18390254, 16H02655), a Grant-in-Aid for Scientific Research on Innovative Areas {"}Foundation of Synapse and Neurocircuit Pathology{"} (22110001, 22110002), Strategic Research Program for Brain Sciences (SRPBS) from the Ministry of Education, Culture, Sports, Science and Technology (MEXT), and Brain Mapping by Integrated Neurotechnologies for Disease Studies from Japan agency for Medical research and Development (AMED) to H. Okazawa and the Program for Intractable Disease Research Utilizing Disease-specific iPS Cells from MEXT and Japan Agency for Medical Research and Development (AMED) to H. Okano. We thank Ms. Ayako Seki for manuscript preparation and Dr. Hikaru Ito and Ms. Tayoko Tajima (TMDU) for technical support. H. Okazawa deeply appreciates the continuous encouragement provided by Prof. Ichiro Kanazawa (National Center for Neurology and Psychiatry) for the Huntington's disease research studies. Publisher Copyright: {\textcopyright} The Author(s) 2016.",

year = "2016",

month = sep,

day = "22",

doi = "10.1038/srep33861",

language = "English",

volume = "6",

journal = "Scientific Reports",

issn = "2045-2322",

publisher = "Nature Publishing Group",

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T1 - Identification of hepta-histidine as a candidate drug for Huntington's disease by in silico-in vitro- in vivo-integrated screens of chemical libraries

AU - Imamura, Tomomi

AU - Fujita, Kyota

AU - Tagawa, Kazuhiko

AU - Ikura, Teikichi

AU - Chen, Xigui

AU - Homma, Hidenori

AU - Tamura, Takuya

AU - Mao, Ying

AU - Taniguchi, Juliana Bosso

AU - Motoki, Kazumi

AU - Nakabayashi, Makoto

AU - Ito, Nobutoshi

AU - Yamada, Kazunori

AU - Tomii, Kentaro

AU - Okano, Hideyuki

AU - Kaye, Julia

AU - Finkbeiner, Steven

AU - Okazawa, Hitoshi

N1 - Funding Information: This work was supported by CREST from the Japan Science and Technology Agency (JST), a Grant-in-Aid for Scientific Research from the Japan Society for the Promotion of Science (JSPS) (18390254, 16H02655), a Grant-in-Aid for Scientific Research on Innovative Areas "Foundation of Synapse and Neurocircuit Pathology" (22110001, 22110002), Strategic Research Program for Brain Sciences (SRPBS) from the Ministry of Education, Culture, Sports, Science and Technology (MEXT), and Brain Mapping by Integrated Neurotechnologies for Disease Studies from Japan agency for Medical research and Development (AMED) to H. Okazawa and the Program for Intractable Disease Research Utilizing Disease-specific iPS Cells from MEXT and Japan Agency for Medical Research and Development (AMED) to H. Okano. We thank Ms. Ayako Seki for manuscript preparation and Dr. Hikaru Ito and Ms. Tayoko Tajima (TMDU) for technical support. H. Okazawa deeply appreciates the continuous encouragement provided by Prof. Ichiro Kanazawa (National Center for Neurology and Psychiatry) for the Huntington's disease research studies. Publisher Copyright: © The Author(s) 2016.

PY - 2016/9/22

Y1 - 2016/9/22

N2 - 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.

AB - 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.

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U2 - 10.1038/srep33861

DO - 10.1038/srep33861

M3 - Article

AN - SCOPUS:84988597055

SN - 2045-2322

VL - 6

JO - Scientific Reports

JF - Scientific Reports

M1 - 33861

ER -

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

Abstract

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UN SDGs

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