Personnel Information

写真a

TAKEUCHI Hiroaki


Job title

Professor

Laboratory Address

1-5-45 Yushima, Bunkyo-ku, Tokyo 113-8519 JAPAN

Laboratory Phone number

+81-3-5803-5939

Laboratory Fax number

+81-3-5803-0437

Mail Address

htake.molv@tmd.ac.jp

Research Areas, Keywords

Virus, Infectious Diseases, HIV, AIDS, SARS-CoV-2, COVID-19, host factor

Field Introduction URL

ハイリスク感染症研究マネジメント学分野 | High-risk Infectious Disease Control

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Graduate School 【 display / non-display

  • Tohoku University, Graduate School, Division of Medical Sciences, Department of Virology, Doctor's Course, 2003.03, Completed

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Degree 【 display / non-display

  • Ph.D, Tohoku University

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Campus Career 【 display / non-display

  • 2024.10
    -
    Now
    Institute of Science Tokyo, -, Graduate Schools, Bio-Environmental Response, Department of High-risk Infectious Disease Control, Professor
  • 2023.11
    -
    Now
    Institute of Science Tokyo, Other university, TMDU Center for Infectious Disease Education and Analysis (TCIDEA), Deputy Director
  • 2020.05
    -
    Now
    Institute of Science Tokyo, (Old Organization)Medical Hospital, Advisor to the Director
  • 2023.06
    -
    2023.10
    Tokyo Medical and Dental University, Graduate School of Medical and Dental Sciences, Medical and Dental Sciences, Division of Bio-Environmental Response, -, Professor
  • 2023.11
    -
    2024.09
    Tokyo Medical and Dental University, Graduate School of Medical and Dental Sciences, Medical and Dental Sciences, Division of Bio-Environmental Response, -, Professor
  • 2021.04
    -
    2023.05
    Tokyo Medical and Dental University, Graduate School of Medical and Dental Sciences, Medical and Dental Sciences, Bio-Environmental Response, Molecular Virology, Associate Professor
  • 2020.06
    -
    2021.03
    Tokyo Medical and Dental University, Graduate School of Medical and Dental Sciences, Medical and Dental Sciences, Bio-Environmental Response, Molecular Virology, Junior Associate Professor
  • 2018.04
    -
    2020.05
    Tokyo Medical and Dental University, Graduate School of Medical and Dental Sciences, Medical and Dental Sciences, Bio-Environmental Response, Molecular Virology, Junior Associate Professor
  • 2017.08
    -
    2018.03
    Tokyo Medical and Dental University, Graduate School of Medical and Dental Sciences, Medical and Dental Sciences, Bio-Environmental Response, Molecular Virology, Junior Associate Professor
  • 2011.03
    -
    2018.03
    Tokyo Medical and Dental University, Graduate School of Medical and Dental Sciences, Medical and Dental Sciences, Bio-Environmental Response, Molecular Virology, Assistant Professor

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External Career 【 display / non-display

  • 2007.01
    -
    2011.02
    , Project Assistant Professor
  • 2010.04
    -
    2011.03
    , Visiting Lecturer
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Academic Activity 【 display / non-display

  • 2021.03
    -
    Now
    Frontiers in Virology (Fundarmental Virology) Associate Editor
  • 2018.01
    -
    Now
    Microbiology and Immunology Associate Editor
  • 2021.01
    -
    Now
    The Japanese Society for Virology Councilor
  • 2010.01
    -
    Now
    Frontiers in Microbiology Review Editor
  • 2023.09
    -
    Now
    Frontiers in Cellular and Infection Microbiology Review Editor
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Research Areas 【 display / non-display

  • Virology

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Research Theme 【 display / non-display

  • A development research aiming to elucidate and overcome HIV latency by cutting-edge nucleic acid biotechnology, 2022.04 - Now

  • Creation of new druggable target to overcome HIV-1 latency via innovative fusion between high-resolution nucleic acid analysis and leading-edge technique for viral dynamics, 2019.04 - 2022.03

  • Research on the development of anti-HIV drugs with a novel mechanism of action to cure HIV, 2018.04 - Now

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Published Papers & Misc 【 display / non-display

  1. Sonoda S., Shimada S., Sawada A., Yasuda T., Shirai T., Furusawa H., Tanaka Y., Tanimoto K., Takeuchi H., and Miyazaki Y. Refractory pneumonia due to persistent SARS-CoV-2 infection in an immunocompromised host successfully treated with extended course nirmatrelvir/ ritonavir. ASM Case Reports. 2025.01;

  2. Inoue K., Tomomasa D., Nakagawa Y., Takeuchi H., Tanaka Y., Tanimoto K., Kamiya T., Isoda T., Takagi M., Tanaka K., Yoshifuji K., Miwa Y., Ohnishi H., Okada S., Mori T., Yasuda S., Kido Y., Morio T., and Kanegane H. Real-world experience of tixagevimab and cilgavimab in Japanese patients with immunodeficiency. Journal of Infection and Chemotherapy. 2025.01;

  3. Osaka Hilary, Tagashira Yasuaki, Takeuchi Hiroaki, Tanaka Yukie, Tanimoto Kousuke, Gu Yoshiaki. Nosocomial Outbreak of SARS-CoV-2 in a Hospital Ward during the Omicron Variant-Dominant Wave with a Review of the Relevant Literature(タイトル和訳中) Japanese Journal of Infectious Diseases. 2024.09; 77 (5): 253-259. ( ichushi )

  4. Osaka H, Tagashira Y, Takeuchi H, Tanaka Y, Tanimoto K, Gu Y. Nosocomial outbreak of SARS-CoV-2 in a hospital ward during the Omicron variant-dominant wave with a review of the relevant literature. Japanese journal of infectious diseases. 2024.05; ( PubMed, DOI )

  5. Taga Kei, Takeuchi Hiroaki. 不顕性感染したHIV-1プロウイルスのHIV-1再活性化における宿主蛋白質SLC25A42の新しい役割(Novel role of host protein SLC25A42 in the HIV-1 reactivation of latent HIV-1 provirus) Microbiology and Immunology. 2024.03; 68 (3): 90-99. ( ichushi )

  6. Reda O, Monde K, Sugata K, Rahman A, Sakhor W, Rajib SA, Sithi SN, Tan BJY, Niimura K, Motozono C, Maeda K, Ono M, Takeuchi H, Satou Y. HIV-Tocky system to visualize proviral expression dynamics. Communications biology. 2024.03; 7 (1): 344. ( PubMed, DOI )

  7. Kei Taga, Hiroaki Takeuchi. Novel role of host protein SLC25A42 in the HIV-1 reactivation of latent HIV-1 provirus Microbiology and Immunology. 2024.01; 68 (3): 1-10. ( PubMed, DOI )

  8. Tatsuya Iida, Jun Ando, Hajime Shinoda, Asami Makino, Mami Yoshimura, Kazue Murai, Makiko Mori, Hiroaki Takeuchi, Takeshi Noda, Hiroshi Nishimasu, Rikiya Watanabe. Compact wide-field femtoliter-chamber imaging system for high-speed and accurate digital bioanalysis. Lab on a Chip. 2023.02; 23 (4): 684-691. ( PubMed, DOI )

  9. Takatsuki Y., Takahashi Y., Nakajima J., Iwasaki Y., Nagano K., Tani-Sassa C., Yuasa S., Kanehira S., Sonobe K., Nukui Y., Takeuchi H., Tanimoto K., Tanaka Y., Kimura A., Ichimura N., and Tohda S.. Viral load of SARS-CoV-2 Omicron BA.5 is lower than that of BA.2 despite higher infectivity of BA.5. Immunity, Inflammation and Disease. 2023.02; 11 (2): e783. ( PubMed, DOI )

  10. Kitamura H., Sukegawa S., Matsuda K., Tanimoto K., Kobayakawa T., Takahashi K., Tamamura H., Tsuchiya K., Gatanaga H., Maeda K., and Takeuchi H.. 4-phenylquinoline-8-amine induces HIV-1 reactivation and apoptosis in latently HIV-1 infected cells. Biochemical and Biophysical Research Communications. 2023.01; 641 139-147. ( PubMed, DOI )

  11. Sayaka Sukegawa and Hiroaki Takeuchi. Toward the unveiling of HIV-1 dynamics: involvement of monocytes/macrophages in HIV-1 infection Frontiers in Virology. 2022.07; 2 (934892): ( DOI )

  12. Yuasa Sonoka, Nakajima Jun, Takatsuki Yuna, Takahashi Yuta, Tani-Sassa Chihiro, Iwasaki Yumi, Nagano Katsutoshi, Sonobe Kazunari, Yoshimoto Tomoyo, Nukui Yoko, Takeuchi Hiroaki, Tanimoto Kousuke, Tanaka Yukie, Kimura Akinori, Ichimura Naoya, Tohda Shuji. Viral load of SARS-CoV-2 Omicron is not high despite its high infectivity JOURNAL OF MEDICAL VIROLOGY. 2022.07; 94 (11): 5543-5546. ( PubMed, DOI )

  13. Nishiyama Takara, Takada Toru, Takeuchi Hiroaki, Iwami Shingo. Maternal embryonic leucine zipper kinase (MELK) optimally regulates the HIV-1 uncoating process JOURNAL OF THEORETICAL BIOLOGY. 2022.07; 545 111152. ( PubMed, DOI )

  14. Shinoda Hajime, Iida Tatsuya, Makino Asami, Yoshimura Mami, Ishikawa Junichiro, Ando Jun, Murai Kazue, Sugiyama Katsumi, Muramoto Yukiko, Nakano Masahiro, Kiga Kotaro, Cui Longzhu, Nureki Osamu, Takeuchi Hiroaki, Noda Takeshi, Nishimasu Hiroshi, Watanabe Rikiya. Automated amplification-free digital RNA detection platform for rapid and sensitive SARS-CoV-2 diagnosis COMMUNICATIONS BIOLOGY. 2022.05; 5 (1): 473. ( PubMed, DOI )

  15. Horiguchi Yukichi, Naono Norihiko, Sakamoto Osamu, Takeuchi Hiroaki, Yamaoka Shoji, Miyahara Yuji. Methodology to Detect Biological Particles Using a Biosensing Surface Integrated in Resistive Pulse Sensing ACS APPLIED MATERIALS & INTERFACES. 2022.04; 14 (17): 20168-20178. ( PubMed, DOI )

  16. Arakawa M, Tabata K, Ishida K, Kobayashi M, Arai A, Ishikawa T, Suzuki R, Takeuchi H, Tripathi LP, Mizuguchi K, Morita E. Flavivirus recruits the valosin-containing protein (VCP)/NPL4 complex to induce stress granule disassembly for efficient viral genome replication. The Journal of biological chemistry. 2022.01; 298 (3): 101597. ( PubMed, DOI )

  17. Tani-Sassa Chihiro, Iwasaki Yumi, Ichimura Naoya, Nagano Katsutoshi, Takatsuki Yuna, Yuasa Sonoka, Takahashi Yuta, Nakajima Jun, Sonobe Kazunari, Nukui Yoko, Takeuchi Hiroaki, Tanimoto Kousuke, Tanaka Yukie, Kimura Akinori, Tohda Shuji. Viral loads and profile of the patients infected with SARS-CoV-2 Delta, Alpha, or R.1 variants in Tokyo JOURNAL OF MEDICAL VIROLOGY. 2021.12; 94 (4): 1707-1710. ( PubMed, DOI )

  18. Oba Seiya, Hosoya Tadashi, Amamiya Miki, Mitsumura Takahiro, Kawata Daisuke, Sasaki Hirokazu, Kamiya Mari, Yamamoto Akio, Ando Takahiro, Shimada Sho, Shirai Tsuyoshi, Okamoto Tsukasa, Tateishi Tomoya, Endo Akira, Aiboshi Junichi, Nosaka Nobuyuki, Yamanouchi Hideo, Ugawa Toyomu, Nagaoka Eiki, Oi Keiji, Tao Susumu, Maejima Yasuhiro, Tanaka Yukie, Tanimoto Kousuke, Takeuchi Hiroaki, Tohda Shuji, Hirakawa Akihiro, Sasano Tetsuo, Arai Hirokuni, Otomo Yasuhiro, Miyazaki Yasunari, Yasuda Shinsuke. Arterial and Venous Thrombosis Complicated in COVID-19: A Retrospective Single Center Analysis in Japan FRONTIERS IN CARDIOVASCULAR MEDICINE. 2021.11; 8 767074. ( PubMed, DOI )

  19. Reda O., Monde K., Sugata K., Rahman A., Sakhor W., Tan B. J., Matsuo M., Takeuchi H., Ono M., Satou Y.. A new in-vitro model to monitor HIV-1 proviral transcription by timer-fluorescence protein HIV MEDICINE. 2021.10; 22 54-55.

  20. Deletsu Selase D., Kitamura Haruki, Ishida Takaomi, Gohda Jin, Yamaoka Shoji, Takeuchi Hiroaki. Identification and characterization of Stathmin 1 as a host factor involved in HIV-1 latency BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS. 2021.08; 567 106-111. ( PubMed, DOI )

  21. Nagano Katsutoshi, Tani-Sassa Chihiro, Iwasaki Yumi, Takatsuki Yuna, Yuasa Sonoka, Takahashi Yuta, Nakajima Jun, Sonobe Kazunari, Ichimura Naoya, Nukui Yoko, Takeuchi Hiroaki, Tanimoto Kousuke, Tanaka Yukie, Kimura Akinori, Tohda Shuji. SARS-CoV-2 R.1 lineage variants that prevailed in Tokyo in March 2021 JOURNAL OF MEDICAL VIROLOGY. 2021.08; 93 (12): 6833-6836. ( PubMed, DOI )

  22. Lotfi S, Nasser H, Noyori O, Hiyoshi M, Takeuchi H, Koyanagi Y, Suzu S. M-Sec facilitates intercellular transmission of HIV-1 through multiple mechanisms. Retrovirology. 2020.07; 17 (1): 20. ( PubMed, DOI )

  23. Weitong Yao, Takeshi Yoshida, Saki Hashimoto, Hiroaki Takeuchi, Klaus Strebel, Shoji Yamaoka. Vpu of a Simian Immunodeficiency Virus Isolated from Greater Spot-Nosed Monkey Antagonizes Human BST-2 via Two AxxxxxxxW Motifs. J. Virol.. 2020.01; 94 (2): ( PubMed, DOI )

  24. H. Takeuchi, T. Ishida, Y. Satou, J. Gohda, H. Kitamura, S. Gan, K. Takahashi, S. Yamaoka. Genome-wide RNAi screen identifies MAPK-RPK required for HIV-1 proviral silencing in non-T cell reservoir cell-line model Journal of Virus Eradication. 2019.12; 5 (Supplement 3): 5. ( DOI )

  25. Iwase CS., Miyazato P., Katsuya H., Islam S., Yang TJS., Ito J., Matsuo M., Takeuchi H., Ishida T., Matsuda K., Maeda K., and Satou Y.. HIV-1 DNA-capture-seq is a useful tool for the comprehensive characterization of HIV-1 provirus. Scientific Reports. 2019.08; 9 (1): 12326. ( DOI )

  26. Maeda K., Das D., Kobayakawa T., Tamamura H., and Takeuchi H. Discovery and Development of anti-HIV Therapeutic Agents: Progress Towards Improved HIV Medication. Current Topics in Medicinal Chemistry. 2019.07; 19 1-29. ( DOI )

  27. Aziati ID, Yoshida T, Hamano A, Maeda K, Takeuchi H, Yamaoka S. PATZ1 is required for efficient HIV-1 infection. Biochemical and biophysical research communications. 2019.06; 514 (2): 538-544. ( PubMed, DOI )

  28. Yoshida Takeshi, Kawamura Saki, Yamaguchi Haruka, Takeuchi Hiroaki, Yamaoka Shoji. Identification of a host factor supporting HIV-1 entry(和訳中) 日本エイズ学会誌. 2018.11; 20 (4): 537. ( ichushi )

  29. Suzuki N., Yoshida T., Takeuchi H., Sakuma R., Sukegawa S., and Yamaoka S.. Robust enhancement of lentivirus production by promoter activation. Scientific Reports. 2018.09;

  30. Yukichi Horiguchi, Tatsuro Goda, Akira Matsumoto, Hiroaki Takeuchi, Shoji Yamaoka, Yuji Miyahara. Gold Nanoparticles with Ligand/Zwitterion Hybrid Layer for Individual Counting of Influenza A H1N1 Subtype Using Resistive Pulse Sensing. Langmuir. 2018.08; 35 (5): 1798-1806. ( PubMed, DOI )

  31. Jerry Kwame Ndzinu, Hiroaki Takeuchi, Hideki Saito, Takeshi Yoshida, Shoji Yamaoka. eIF4A2 is a host factor required for efficient HIV-1 replication. Microbes Infect.. 2018.05; 20 (6): 346-352. ( PubMed, DOI )

  32. Hai, WF; Goda, T; Takeuchi, H; Yamaoka, S; Horiguchi, Y; Matsumoto, A; Miyahara, Y. Human influenza virus detection using sialyllactose-functionalized organic electrochemical transistors SENSORS AND ACTUATORS B-CHEMICAL. 2018.05; 260 635-641. ( DOI )

  33. Jin Gohda, Kazuo Suzuki, Kai Liu, Xialin Xie, Hiroaki Takeuchi, Jun-Ichiro Inoue, Yasushi Kawaguchi, Takaomi Ishida. BI-2536 and BI-6727, dual Polo-like kinase/bromodomain inhibitors, effectively reactivate latent HIV-1. Sci Rep. 2018.02; 8 (1): 3521. ( PubMed, DOI )

  34. Osako M., Itsumi M., Yamaguchi H., Takeuchi H., and Yamaoka S.. A20 restores phorbol ester-induced differentiation of THP-1 cells in the absence of nuclear factor-κB activation. Journal of Cellular Biochemistry. 2018.02; 119 (2): 1475-1487. ( PubMed, DOI )

  35. Hai W., Goda T., Takeuchi H., Yamaoka S., Horiguchi Y., Matsumoto A., and Miyahara Y. Human Influenza Virus Detection Using Sialyllactose-Functionalized Organic Electrochemical Transistors. Sensors & Actuators B-Chemical. 2018.01;

  36. Takeshi Yoshida, Akiko Hamano, Asuka Ueda, Hiroaki Takeuchi, Shoji Yamaoka. Human SMOOTHENED inhibits human immunodeficiency virus type 1 infection. Biochem. Biophys. Res. Commun.. 2017.11; 493 (1): 132-138. ( PubMed, DOI )

  37. Hideki Saito, Hiroaki Takeuchi, Takao Masuda, Takeshi Noda, Shoji Yamaoka. N-terminally truncated POM121C inhibits HIV-1 replication. PLoS ONE. 2017.09; 12 (9): e0182434. ( PubMed, DOI )

  38. Hiroaki Takeuchi, Hideki Saito, Takeshi Noda, Tadashi Miyamoto, Tomokazu Yoshinaga, Kazutaka Terahara, Hiroshi Ishii, Yasuko Tsunetsugu-Yokota, Shoji Yamaoka. Phosphorylation of the HIV-1 capsid by MELK triggers uncoating to promote viral cDNA synthesis. PLoS Pathog. 2017.07; 13 (7): e1006441. ( PubMed, DOI )

  39. Yukichi Horiguchi, Tatsuro Goda, Akira Matsumoto, Hiroaki Takeuchi, Shoji Yamaoka, Yuji Miyahara. Direct and label-free influenza virus detection based on multisite binding to sialic acid receptors. Biosens Bioelectron. 2017.06; 92 234-240. ( PubMed, DOI )

  40. Wenfeng H., Goda T., Takeuchi H., Yamaoka S., Horiguchi Y., Akira M., and Miyahara Y.. Specific Recognition of Human Influenza Virus with PEDOT Bearing Sialic Acid-Terminated Trisaccharides. ACS Applied Materials & Interfaces. 2017.04; 9 (16): 14162-14170. ( PubMed, DOI )

  41. Sukegawa S., Sakuma R., Ohmine S., Takeuchi H., Ikeda Y and Yamaoka S.. Suppressor of Cytokine Signaling 1 Counteracts Rhesus Macaque TRIM5a-Induced Inhibition of Human Immunodeficiency Virus Type-1 Production. PLoS ONE. 2014.09; 9 (10): e109640. ( PubMed )

  42. Sugiyama R., Abe M., Nishitsuji H., Murakami Y., Takeuchi H., and Takaku H.. Induction of heat-shock protein 70 by prostaglandin A1 inhibits HIV-1 Vif-mediated degradation of APOBEC3G. Antiviral Research. 2013.09; 99 (3): 307-311. ( PubMed )

  43. Takanori Hori, Hiroaki Takeuchi, Hideki Saito, Ryuta Sakuma, Yoshio Inagaki, Shoji Yamaoka. A carboxy-terminally truncated human CPSF6 lacking residues encoded by exon 6 inhibits HIV-1 cDNA synthesis and promotes capsid disassembly. J. Virol.. 2013.07; 87 (13): 7726-7736. ( PubMed, DOI )

  44. Ryuta Sakuma, Hiroaki Takeuchi. SIV replication in human cells. Front Microbiol. 2012.04; 3 162. ( PubMed, DOI )

  45. Hiroaki Takeuchi, Hiroshi Ishii, Tetsuya Kuwano, Natsuko Inagaki, Hirofumi Akari, Tetsuro Matano. Host cell species-specific effect of cyclosporine A on simian immunodeficiency virus replication. Retrovirology. 2012.01; 9 3. ( PubMed, DOI )

  46. Sugiyama R., Nishitsuji H., Furukawa A., Katahira M., Habu Y., Takeuchi H., Ryo A., and Takaku H.. Heat shock protein 70 inhibits HIV-1 Vif-mediated ubiquitination and degradation of APOBEC3G. Journal of Biological Chemistry. 2011; 286 (12): 10051-10057.

  47. Ohmine S., Sakuma R., Sakuma T., Thatava T., Takeuchi H., and Ikeda Y.. The antiviral spectra of TRIM5α orthologues and human TRIM family proteins against lentiviral production. PLoS ONE. 2011; 6 (1): e16121.

  48. Hiroaki Takeuchi. Contribution of Cyclophilin A to determination of simian immunodeficiency virus tropism: a progress update. Vaccine. 2010.05; 28 Suppl 2 B51-B54. ( PubMed, DOI )

  49. Iwamoto N., Tsukamoto T., Kawada M., Takeda A., Yamamoto H., Takeuchi H., and Matano T.. Broadening of CD8+ cell responses in vaccine-based simian immunodeficiency virus controllers. AIDS. 2010; 24 (18): 2777-2787.

  50. Inagaki N., Takeuchi H*., Yokoyama M., Sato H., Ryo A., Yamamoto H., Kawada M., and Matano T.. A structural constraint for functional interaction between N-terminal and C-terminal domains in simian immunodeficiency virus capsid proteins. Retrovirology. 2010; (7): 90.

  51. Hiroaki Takeuchi, Tetsuro Matano. Host factors involved in resistance to retroviral infection. Microbiol. Immunol.. 2008.06; 52 (6): 318-325. ( PubMed, DOI )

  52. Kawada M., Tsukamoto T., Yamamoto H., Iwamoto N., Kurihara K., Takeda A., Moriya C., Takeuchi H., Akari H., and Matano T.. Gag-specific cytotoxic T-lymphocyte-based control of primary simian immunodeficiency virus replication in a vaccine trial. Journal of Virology. 2008; 82 (20): 10199-10206.

  53. Goila-Gaur R., Khan MA., Miyagi E., Kao S., Opi S., Takeuchi H., and Strebel K.. HIV-1 Vif promotes the formation of high molecular mass APOBEC3G complexes. Virology. 2008; 372 (1): 136-146.

  54. Hiroaki Takeuchi, Alicia Buckler-White, Ritu Goila-Gaur, Eri Miyagi, Mohammad A Khan, Sandrine Opi, Sandra Kao, Elena Sokolskaja, Thomas Pertel, Jeremy Luban, Klaus Strebel. Vif counteracts a cyclophilin A-imposed inhibition of simian immunodeficiency viruses in human cells. J. Virol.. 2007.08; 81 (15): 8080-8090. ( PubMed, DOI )

  55. Miyagi E., Opi S., Takeuchi H., Khan MA., Goila-Gaur R., Kao S., and Strebel K. . Enzymatically Active APOBEC3G Is required for Efficient Inhibition of HIV-1. Journal of Virology. 2007; 81 (24): 13346-13353.

  56. Khan MA., Goila-Gaur R., Opi S., Miyagi E., Takeuchi H., Kao S., and Strebel K. . Analysis of the contribution of cellular and viral RNA to the packaging of APOBEC3G into HIV-1 virions. Retrovirology. 2007; 4 (1): 48.

  57. Opi S., Kao S., Goila-Gaur R., Khan MA., Miyagi E., Takeuchi H., and Strebel K. . Human immunodeficiency virus type 1 Vif inhibits packaging and antiviral activity of a degradation-resistant APOBEC3G variant. Journal of Virology. 2007; 81 (15): 8236-8246.

  58. Kao S., Goila-Gaur R., Miyagi E., Kahn MA., Opi S., Takeuchi H., and Strebel K. . Production of infectious virus and degradation of APOBEC3G are separable functional properties of human immunodeficiency virus type 1 Vif. Virology. 2007; 369 (2): 329-339.

  59. Iwatani Y., Takeuchi H*., Strebel K., and Levin JG.. Biochemical activities of highly purified, catalytically active human APOBEC3G: correlation with antiviral effect. Journal of Virology. 2006; 80 (12): 5992-6002.

  60. Opi S., Takeuchi H*., Kao S., Khan MA., Miyagi E., Goila-Gaur R., Iwatani Y., Levin LG., and Strebel K.. Monomeric APOBEC3G is catalytically active and has antiviral activity. Journal of Virology. 2006; 80 (10): 4673-4682.

  61. Eda Y., Murakami T., Ami Y., Nakasone T., Takizawa M., Someya K., Kaizu M., Izumi Y., Yoshino N., Matsushita S., Higuchi H., Matsui H., Shinohara K., Takeuchi H., Koyanagi Y., Yamamoto N., and Honda M.. Anti-V3 Humanized Antibody KD-247 Effectively Suppresses Ex Vivo Generation of Human Immunodeficiency Virus Type 1 and Affords Sterile Protection of Monkeys against a Heterologous Simian/Human Immunodeficiency Virus Infection. Journal of Virology. 2006; 80 (11): 5563-5570.

  62. Hiroaki Takeuchi, Sandra Kao, Eri Miyagi, Mohammad A Khan, Alicia Buckler-White, Ron Plishka, Klaus Strebel. Production of infectious SIVagm from human cells requires functional inactivation but not viral exclusion of human APOBEC3G. J. Biol. Chem.. 2005.01; 280 (1): 375-382. ( PubMed, DOI )

  63. Habu Y., Nagawa T., Matsumoto N., Takeuchi H., Miyano-Kurosaki N., and Takaku H.. Suppression of human immunodeficiency virus type 1 (HIV-1) replication by an HIV-1-dependent double locked vector with the Cre/loxP system. Nucleosides Nucleotides Nucleic Acids. 2005; 24 (10-12): 1907-1917.

  64. Khan MA., Kao S., Miyagi E., Takeuchi H., Goila-Gaur R., Opi S., Gipson CL., Parslow TG., Ly H., and Strebel K. . Viral RNA is required for the Association of APOBEC3G with HIV-1 Nucleoprotein Complexes. Journal of Virology. 2005; 79 (9): 5870-5874.

  65. Kao S., Miyagi E., Khan MA., Takeuchi H., Opi S., Goila-Gaur R., and Strebel K.. Production of infectious human immunodeficiency virus type 1 does not require depletion of APOBEC3G from virus-producing cells. Retrovirology. 2004; 1 (1): 27.

  66. Miyano-Kurosaki N., Barnor JS., Takeuchi H., Owada T., Nakashima H., Yamamoto N., Matsuzaki T., Shimada F., and Takaku H.. In vitro and in vivo transport and delivery of phosphorothioate oligonucleotides with cationic liposomes. Antiviral Chemistry and Chemotherapy. 2004; 15 (2): 93-100.

  67. Kuwasaki T., Hatta M., Takeuchi H., and Takaku H.. Inhibition of human immunodeficiency virus 1 replication in vitro by a self-stabilized oligonucleotide with 2'-O-methyl-guanosine-uridine quadruplex motifs. Journal of Antimicrobial Chemotherapy. 2003; 51 (4): 813-819.

  68. Hiroaki Takeuchi, Youichi Suzuki, Masashi Tatsumi, Hiroo Hoshino, Eric S Daar, Yoshio Koyanagi. Isolation and characterization of an infectious HIV type 1 molecular clone from a patient with primary infection. AIDS Res. Hum. Retroviruses. 2002.10; 18 (15): 1127-1133. ( PubMed, DOI )

  69. Habu Y., Miyano-Kurosaki N., Nagawa T., Matsumoto N., Takeuchi H*., and Takaku H.. Inhibition of HIV-1 replication by an HIV-1 dependent ribozyme expression vector with the Cre/loxP (ON/OFF) system. Antiviral Chemistry and Chemotherapy. 2002; 13 (5): 273-281.

  70. Suzuki J., Miyano-Kurosaki N., Kuwasaki T., Takeuchi H., Kawai G., and Takaku H.. Inhibition of human immunodeficiency virus type 1 activity in vitro by a new self-stabilized oligonucleotide with guanosine-thymidine quadruplex motifs. Journal of Virology. 2002; 76 3015-3022.

  71. Yukita M., Kitano M., Miyano-Kurosaki N., Takeuchi H., Nashimoto M., and Takaku H.. RNA cleavage by a mammalian tRNA 3' processing endoribonuclease (3'tRNase) reduces HIV-1 expression. Nucleic Acids Resarch. 2002; Supplement 2 297-298.

  72. Nagawa T., Habu Y., Matsumoto N., Takeuchi H., Miyano-Kurosaki N., and Takaku H.. Development of HIV-1 dependent gene expression vector with the Cre/loxP (ON) system. Nucleic Acids Resarch. 2002; Supplement 2 295-296.

  73. Inagawa T., Nakashima H., Karwowski B., Guga P., Stec WJ., Takeuchi H., and Takaku H.. Inhibition of Human Immunodeficiency Virus Type-1 replication by P-stereodefined oligo (nucleoside phosphorothioate)s in a long-term infection model. FEBS Letter . 2002; 528 (1-3): 48-52.

  74. Habu Y., Miyano-Kurosaki N., Takeuchi H., Matsumoto N., Tamura Y., and Takaku H.. Inhibition of HIV-1 replication by the Cre-loxP hammerhead ribozyme. Nucleosides Nucleotides Nucleic Acids. 2001; 20 (4-7): 723-726.

  75. Kitano M., Barnor JS., Miyano-Kurosaki N., Endo Y., Yukita M., Takeuchi H., Tamura Y., Takai K., Nashimoto M., and Takaku H.. Effective suppression of HIV-1 gene expression by a mammalian tRNA 3' processing endoribonuclease and external guide sequence oligozymes. Nucleosides Nucleotides Nucleic Acids. 2001; 20 (4-7): 719-722.

  76. Kitano M., Miyano-Kurosaki N., Endo Y., Yukita M., Takeuchi H., Tamura Y., Takai K., Nashimoto M., and Takaku H. . Effective suppression of HIV-1 gene expression by a mammalian tRNA 3' processing endoribonuclease and external guide sequence oligozymes. Nucleic Acids Symposium Series. 1999; (42): 207-208.

  77. Hosoya T., Takeuchi H*., Kanesaka Y., Yamakawa H., Miyano-Kurosaki N., Takai K., Yamamoto N., and Takaku H.. Sequence-specific inhibition of a transcription factor by circular dumbbell DNA oligonucleotides. FEBS Letters . 1999; 19 (461 (3)): 136-140.

  78. Suzuki J., Miyano-Kurosaki N., Takeuchi H., Tamura Y., Kawai G., Takai K., Tanaka Y., Tanaka R., Yamamoto N., and Takaku H.. Phosphorothioate G3T4G3 motifs inhibit the early stage of HIV-1 infection. Nucleic Acids Symposium Series. 1999; (42): 227-228.

  79. Habu Y., Takeuchi H*., Tamura Y., Miyano-Kurosaki N., Takai K., and Takaku H.. Development of an HIV-1-dependent expression vector with the Cre/loxP system. Nucleic Acids Symposium Series. 1999; (42): 295-296.

  80. Tsukahara S., Suzuki J., Goto Y., Inagawa T., Takeuchi H., Takai K., Koyanagi Y., Yamamoto N., and Takaku H.. Inhibition of gene expression by oligonucleotides forming triple-helices with the polypurine tract of HIV-1. Nucleic Acids Symposium Series. 1996; (35): 181-182.

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Books etc 【 display / non-display

  1. Sakuma R and Takeuchi H. Retroviral Host Cell Factors: APOBEC3G, TRIM5, and Cyclophilins.. 2011.11 (ISBN : 978-953-307-665-2)

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Conference Activities & Talks 【 display / non-display

  1. Sakhor Wajihah, Sugata Kenji, Tan Benjy Jek Yang, Monde Kazuaki, Motozono Chihiro, Kariya Ryusho, Reda Omnia, Rahman Akhinur, Matsuo Misaki, Nakamura Hitomi, Okada Seiji, Ueno Takamasa, Sagara Yasuko, Takeuchi Hiroaki, Ono Masahiro, Maeda Kenji, Satou Yorifumi. 新人研究者によるワークショップ 初代CD4+T細胞におけるHIV-Tocky systemとトランスクリプトーム解析およびエピゲノム解析の組み合わせにより潜伏期の確立に関与するメカニズムを発見する(Workshops by new investigators HIV-Tocky system in primary CD4+T cells joined with transcriptomic and epigenomic analysis to discover mechanism involves in the establishment of latency). 日本エイズ学会誌 2024.11.01

  2. Hiroaki Takeuchi. Identification of Host Factors Regulating HIV-1 Latency and Their Potential Therapeutic Targets in HIV-1 Latency Reversal.. U.S-Japan Cooperative Medical Sciences Program (USJCMSP) AIDS Panel Meeting 2024.03.07 Seoul, KR

  3. Hiroaki Takeuchi. Identification of host factors regulating HIV-1 latency and their potential therapeutic targets in HIV-1 latency reversal. The 2nd France-Japan symposium on HIV/AIDS and infectious disease basic research 2022.11.05 Tokyo, Japan

  4. Sakhor Wajihah, Sugata Kenji, Tan Benjy Jek Yang, Monde Kazuoki, Motozono Chihiro, Reda Omnia, Rahman Akhinur, Matsuo Misaki, Nakamura Hitomi, Ueno Takamasa, Sagara Yasuko, Takeuchi Hiroaki, Ono Masahiro, Maeda Kenji, Satou Yorifumi. 新規組換えHIVモデルを用いてトランスクリプトーム解析・エピゲノム解析によりHIVの活性化・潜伏感染の運命を明らかにする(Novel recombinant HIV model reveals the fate of HIV activation and latency by transcriptomic and epigenomic analysis). 日本エイズ学会誌 2022.11.01

  5. Sithi Sharmin Nahar, Reda Omnia, Sakhor Wajihah, Rahman Akhinur, Monde Kazuaki, Rajib Samiul Alam, Sugata Kenji, Takeuchi Hiroaki, Ono Masahiro, Maeda Kenji, Satou Yorifumi. 新規Latency Promoting Agentsの同定におけるTimer-HIV-1 systemの応用(Application of Timer-HIV-1 system to identify novel Latency Promoting Agents). 日本エイズ学会誌 2022.11.01

  6. Sakhor Wajihah, Sugata Kenji, Tan Benjy Jek Yang, Monde Kazuoki, Motozono Chihiro, Reda Omnia, Rahman Akhinur, Matsuo Misaki, Nakamura Hitomi, Ueno Takamasa, Sagara Yasuko, Takeuchi Hiroaki, Ono Masahiro, Maeda Kenji, Satou Yorifumi. 新規組換えHIVモデルを用いてトランスクリプトーム解析・エピゲノム解析によりHIVの活性化・潜伏感染の運命を明らかにする(Novel recombinant HIV model reveals the fate of HIV activation and latency by transcriptomic and epigenomic analysis). 日本エイズ学会誌 2022.11.01

  7. Sithi Sharmin Nahar, Reda Omnia, Sakhor Wajihah, Rahman Akhinur, Monde Kazuaki, Rajib Samiul Alam, Sugata Kenji, Takeuchi Hiroaki, Ono Masahiro, Maeda Kenji, Satou Yorifumi. 新規Latency Promoting Agentsの同定におけるTimer-HIV-1 systemの応用(Application of Timer-HIV-1 system to identify novel Latency Promoting Agents). 日本エイズ学会誌 2022.11.01

  8. Reda Omnia, Monde Kazuaki, Sugata Kenji, Rahman Akhinur, Sakhor Wajihah, Tan Benjy J.Y., Matsuo Misaki, Takeuchi Hiroaki, Ono Masahiro, Satou Yorifumi. タイマー蛍光タンパク質によるHIV-1プロウイルス転写監視のための新しいin-vitroモデル(A new in-vitro model to monitor HIV-1 proviral transcription by timer-fluorescence protein). 日本エイズ学会誌 2021.11.01

  9. Reda O, Monde K, Sugata K, Rahman A, Sakhor W, Rajib SA, Tan BJY, Matsuo M, Ono M, Takeuchi H and Satou Y. A new in-vitro model to monitor HIV-1 proviral transcription by timer-fluorescence protein.. Cold Spring Harbor Laboratory Meeting on Retroviruses 2021.05.27 New York, USA

  10. Ishida T, Satou Y, Gohda J, Kitamura H, Gan S, Takahashi K, Yamaoka S, and Takeuchi H.. Genome-wide RNAi screen identifies MAPK-RPK required for HIV-1 proviral silencing in non-T cell reservoir cell-line model.. The 9th international workshop on HIV persistence during therapy 2019.12.10 Miami, USA

  11. Takeuchi Hiroaki. Multiple approach to HIV cure: Towards a better understanding of the precise cellular regulation of HIV-1 infection.. France-Japan Symposium on HIV and hepatitis basic research 2019.10 Paris, France

  12. Hiroaki Takeuchi. Dynamics and Regulation of HIV-1 Uncoating and Nuclear Movements of HIV-1 Complexes: Our Recent Advances and Future Perspectives.. CAIDS/ACC/ARC Joint Symposium 2018.11.10 東京

  13. Yoshida Takeshi, Kawamura Saki, Yamaguchi Haruka, Takeuchi Hiroaki, Yamaoka Shoji. HIV-1の侵入を支援する宿主因子の同定(Identification of a host factor supporting HIV-1 entry). 日本エイズ学会誌 2018.11.01

  14. 武内 寛明. Dynamics and regulation of HIV-1 uncoating and nuclear movements of HIV-1 complexes. 熊本大学エイズ学研究センター「エイズ学演習VI」大学院セミナー 2018.07.25 熊本、日本

  15. Hiroaki Takeuchi. The timing and triggering of uncoating in an early stage of HIV-1 infection: the essential role of MELK for optimal capsid core disassembly. Special AMR seminar at St. Vincent's Centre of Applied Medical Research 2017.09.27 Sydney, Australia

  16. Hiroaki Takeuchi. The timing and triggering of HIV-1 uncoating: the essential role of MELK for optimal capsid core disassembly.. U.S-Japan Cooperative Medical Sciences Program (USJCMSP) AIDS Panel Meeting 2016.01.13 Washington DC, USA

  17. Hideki Saito. N-terminally truncated POM121C, a component of nuclear pore complexes, inhibits HIV-1 replication. 2015.05.19 Cold Spring Harbor Laboratory

  18. Takeuchi H, Saito H, Miyamoto T, Yoshinaga T, Ishii H and Yamaoka S. AMPK-RPK is a host essential factor for optimal capsid disassembly to promote viral cDNA synthesis during the early stage of HIV-1 infection. Cold Spring Harbor Laboratory Meeting on Retroviruses 2014.05.20 New York, USA

  19. Takeuchi H. Species-specific Effect of Cyclosporine A on Simian Immunodeficiency Virus Replication: Possible Contribution of Cyclophilins to the Determination of Viral Tropism. China-Japan Research Collaboration on Emerging and Reemerging Infections 2009.10.22 Beijing, China

  20. Takeuchi H, Ishii H and Matano T. Cyclophilin B has an inhibitory effect on SIV but not HIV-1 replication in human cells. Cold Spring Harbor Laboratory Meeting on Retroviruses 2009.05.20 New York, USA

  21. Takeuchi H. Contribution of cyclophilin A to determination of simian immunodeficiency virus tropism. The 8th Awaji International Forum on Infection and Immunity 2008.09.10 Awaji Island, Japan

  22. Takeuchi H, Inagaki. N, H. Ishii, T. Kuwano, H. Akari and T. Matano. Cyclophilin A affects SIV replication positively in monkey but negatively in human cells. Cold Spring Harbor Laboratory Meeting on Retroviruses 2008.05.20 New York, USA

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Awards & Honors 【 display / non-display

  • The Fellows Award for Research Excellence (FARE) of National Institutes of Health (NIH), USA,2006

  • The Fellows Award for Research Excellence (FARE) of National Institutes of Health (NIH), USA,2005

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Campus class subject 【 display / non-display

  • Basic Microbiology,2011 - Now

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Performance of duties 【 display / non-display

  • ,2021.09

  • ,2021.07

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