Your search keyword '"Tabata, Koshiro"' showing total 47 results

1. A wide distribution of Beiji nairoviruses and related viruses in Ixodes ticks in Japan

Author

Kishimoto, Mai, Itakura, Yukari, Tabata, Koshiro, Komagome, Rika, Yamaguchi, Hiroki, Ogasawara, Kohei, Nakao, Ryo, Qiu, Yongjin, Sato, Kozue, Kawabata, Hiroki, Kajihara, Masahiro, Monma, Naota, Seto, Junji, Shigeno, Asako, Horie, Masayuki, Sasaki, Michihito, Hall, William W., Sawa, Hirofumi, Orba, Yasuko, and Matsuno, Keita

Published

2024

2. Development of flavivirus subviral particles with low cross-reactivity by mutations of a distinct antigenic domain

Author

Tabata, Koshiro, Itakura, Yukari, Ariizumi, Takuma, Igarashi, Manabu, Kobayashi, Hiroko, Intaruck, Kittiya, Kishimoto, Mai, Kobayashi, Shintaro, Hall, William W., Sasaki, Michihito, Sawa, Hirofumi, and Orba, Yasuko

Published

2023

3. Combination therapy with oral antiviral and anti-inflammatory drugs improves the efficacy of delayed treatment in a COVID-19 hamster model

Author

Sasaki, Michihito, Sugi, Tatsuki, Iida, Shun, Hirata, Yuichiro, Kusakabe, Shinji, Konishi, Kei, Itakura, Yukari, Tabata, Koshiro, Kishimoto, Mai, Kobayashi, Hiroko, Ariizumi, Takuma, Intaruck, Kittiya, Nobori, Haruaki, Toba, Shinsuke, Sato, Akihiko, Matsuno, Keita, Yamagishi, Junya, Suzuki, Tadaki, Hall, William W., Orba, Yasuko, and Sawa, Hirofumi

Published

2024

4. Establishment of a lethal mouse model of emerging tick-borne orthonairovirus infections

Author

Ariizumi, Takuma, primary, Tabata, Koshiro, additional, Itakura, Yukari, additional, Kobayashi, Hiroko, additional, Hall, William W., additional, Sasaki, Michihito, additional, Sawa, Hirofumi, additional, Matsuno, Keita, additional, and Orba, Yasuko, additional

Published

2024

5. Development of a highly specific serodiagnostic ELISA for West Nile virus infection using subviral particles

Author

Maezono, Keisuke, Kobayashi, Shintaro, Tabata, Koshiro, Yoshii, Kentaro, and Kariwa, Hiroaki

Published

2021

6. 2-thiouridine is a broad-spectrum antiviral nucleoside analogue against positive-strand RNA viruses

Author

Uemura, Kentaro, primary, Nobori, Haruaki, additional, Sato, Akihiko, additional, Toba, Shinsuke, additional, Kusakabe, Shinji, additional, Sasaki, Michihito, additional, Tabata, Koshiro, additional, Matsuno, Keita, additional, Maeda, Naoyoshi, additional, Ito, Shiori, additional, Tanaka, Mayu, additional, Anraku, Yuki, additional, Kita, Shunsuke, additional, Ishii, Mayumi, additional, Kanamitsu, Kayoko, additional, Orba, Yasuko, additional, Matsuura, Yoshiharu, additional, Hall, William W., additional, Sawa, Hirofumi, additional, Kida, Hiroshi, additional, Matsuda, Akira, additional, and Maenaka, Katsumi, additional

Published

2023

7. Snapshots from Cryo-ET of active SARS-CoV-2 virions

Author

Fukuhara, Hideo, primary, Dokainish, Hisham M., additional, Kita, Shunsuke, additional, Tabata, Koshiro, additional, Takasu, Akira, additional, Huiskonen, Juha T., additional, Anraku, Yuki, additional, Senda, Toshiya, additional, Stuart, David I., additional, Sasaki, Michihito, additional, Orba, Yasuko, additional, Suzuki, Yasuhiko, additional, Sawa, Hirofumi, additional, and Maenaka, Katsumi, additional

Published

2023

8. Increased production of orthoflavivirus single-round infectious particles produced in mammalian cells at a suboptimal culture temperature of 28°C

Author

Tabata, Koshiro, Kobayashi, Shintaro, Itakura, Yukari, Gonzalez, Gabriel, Kabamba, Chilekwa F., Saito, Shinji, Sasaki, Michihito, Hall, William W., Sawa, Hirofumi, and Orba, Yasuko

Published

2024

9. Morphogenesis of Bullet-Shaped Rabies Virus Particles Regulated by TSG101

Author

Itakura, Yukari, primary, Tabata, Koshiro, additional, Saito, Takeshi, additional, Intaruck, Kittiya, additional, Kawaguchi, Nijiho, additional, Kishimoto, Mai, additional, Torii, Shiho, additional, Kobayashi, Shintaro, additional, Ito, Naoto, additional, Harada, Michiko, additional, Inoue, Satoshi, additional, Maeda, Ken, additional, Takada, Ayato, additional, Hall, William W., additional, Orba, Yasuko, additional, Sawa, Hirofumi, additional, and Sasaki, Michihito, additional

Published

2023

10. S-217622, a SARS-CoV-2 main protease inhibitor, decreases viral load and ameliorates COVID-19 severity in hamsters

Author

1000070609403, Sasaki, Michihito, Tabata, Koshiro, Kishimoto, Mai, Itakura, Yukari, Kobayashi, Hiroko, Ariizumi, Takuma, Uemura, Kentaro, Toba, Shinsuke, Kusakabe, Shinji, Maruyama, Yuki, 1000050785996, Iida, Shun, 1000060333358, Nakajima, Noriko, 1000030527180, Suzuki, Tadaki, Yoshida, Shinpei, Nobori, Haruaki, Sanaki, Takao, Kato, Teruhisa, Shishido, Takao, Hall, William W., 1000060507169, Orba, Yasuko, Sato, Akihiko, 1000030292006, Sawa, Hirofumi, 1000070609403, Sasaki, Michihito, Tabata, Koshiro, Kishimoto, Mai, Itakura, Yukari, Kobayashi, Hiroko, Ariizumi, Takuma, Uemura, Kentaro, Toba, Shinsuke, Kusakabe, Shinji, Maruyama, Yuki, 1000050785996, Iida, Shun, 1000060333358, Nakajima, Noriko, 1000030527180, Suzuki, Tadaki, Yoshida, Shinpei, Nobori, Haruaki, Sanaki, Takao, Kato, Teruhisa, Shishido, Takao, Hall, William W., 1000060507169, Orba, Yasuko, Sato, Akihiko, 1000030292006, and Sawa, Hirofumi

Abstract

In parallel with vaccination, oral antiviral agents are highly anticipated to act as countermeasures for the treatment of the coronavirus disease 2019 (COVID-19) pandemic caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Oral antiviral medication demands not only high antiviral activity but also target specificity, favorable oral bioavailability, and high metabolic stability. Although a large number of compounds have been identified as potential inhibitors of SARS-CoV-2 infection in vitro, few have proven to be effective in vivo. Here, we show that oral administration of S-217622 (ensitrelvir), an inhibitor of SARS-CoV-2 main protease (Mpro; also known as 3C-like protease), decreases viral load and ameliorates disease severity in SARS-CoV-2-infected hamsters. S-217622 inhibited viral proliferation at low nanomolar to submicromolar concentrations in cells. Oral administration of S-217622 demonstrated favorable pharmacokinetic properties and accelerated recovery from acute SARS-CoV-2 infection in hamster recipients. Moreover, S-217622 exerted antiviral activity against SARS-CoV-2 variants of concern, including the highly pathogenic Delta variant and the recently emerged Omicron BA.5 and BA.2.75 variants. Overall, our study provides evidence that S-217622, an antiviral agent that is under evaluation in a phase 3 clinical trial (clinical trial registration no. jRCT2031210350), has remarkable antiviral potency and efficacy against SARS-CoV-2 and is a prospective oral therapeutic option for COVID-19.

Published

2023

11. Isolation and characterization of distinct Rotavirus A in bat and rodent hosts

Author

Kishimoto, Mai, 1000070711894, Kajihara, Masahiro, Tabata, Koshiro, Itakura, Yukari, Toba, Shinsuke, Ozono, Seiya, Sato, Yuko, 1000030527180, Suzuki, Tadaki, 1000020334922, Ito, Naoto, Changula, Katendi, 1000000760985, Qiu, Yongjin, Mori-Kajihara, Akina, Eto, Yoshiki, 1000070805407, Harima, Hayato, Mwizabi, Daniel, Hang'ombe, Bernard M., Hall, William W., 1000010292062, Takada, Ayato, 1000060507169, Orba, Yasuko, 1000030292006, Sawa, Hirofumi, 1000070609403, Sasaki, Michihito, Kishimoto, Mai, 1000070711894, Kajihara, Masahiro, Tabata, Koshiro, Itakura, Yukari, Toba, Shinsuke, Ozono, Seiya, Sato, Yuko, 1000030527180, Suzuki, Tadaki, 1000020334922, Ito, Naoto, Changula, Katendi, 1000000760985, Qiu, Yongjin, Mori-Kajihara, Akina, Eto, Yoshiki, 1000070805407, Harima, Hayato, Mwizabi, Daniel, Hang'ombe, Bernard M., Hall, William W., 1000010292062, Takada, Ayato, 1000060507169, Orba, Yasuko, 1000030292006, Sawa, Hirofumi, 1000070609403, and Sasaki, Michihito

Abstract

Rotavirus A (RVA) causes diarrheal disease in humans and various animals. Recent studies have identified bat and rodent RVAs with evidence of zoonotic transmission and genome reassortment. However, the virological properties of bat and rodent RVAs with currently identified genotypes still need to be better clarified. Here, we performed virus isolation-based screening for RVA in animal specimens and isolated RVAs (representative strains: 16-06 and MpR12) from Egyptian fruit bat and Natal multimammate mouse collected in Zambia. Whole-genome sequencing and phylogenetic analysis revealed that the genotypes of bat RVA 16-06 were identical to that of RVA BATp39 strain from the Kenyan fruit bat, which has not yet been characterized. Moreover, all segments of rodent RVA MpR12 were highly divergent and assigned to novel genotypes, but RVA MpR12 was phylogenetically closer to bat RVAs than to other rodent RVAs, indicating a unique evolutionary history. We further investigated the virological properties of the isolated RVAs. In brief, we found that 16-06 entered cells by binding to sialic acids on the cell surface, while MpR12 entered in a sialic acid-independent manner. Experimental inoculation of suckling mice with 16-06 and MpR12 revealed that these RVAs are causative agents of diarrhea. Moreover, 16-06 and MpR12 demonstrated an ability to infect and replicate in a 3D-reconstructed primary human intestinal epithelium with comparable efficiency to the human RVA. Taken together, our results detail the unique genetic and virological features of bat and rodent RVAs and demonstrate the need for further investigation of their zoonotic potential. IMPORTANCE Recent advances in nucleotide sequence detection methods have enabled the detection of RVA genomes from various animals. These studies have discovered multiple divergent RVAs and have resulted in proposals for the genetic classification of novel genotypes. However, most of these RVAs have been identified via dsRNA viral genomes

Published

2023

12. S-217622, a SARS-CoV-2 main protease inhibitor, decreases viral load and ameliorates COVID-19 severity in hamsters

Author

Sasaki, Michihito, Tabata, Koshiro, Kishimoto, Mai, Itakura, Yukari, Kobayashi, Hiroko, Ariizumi, Takuma, Uemura, Kentaro, Toba, Shinsuke, Kusakabe, Shinji, Maruyama, Yuki, Iida, Shun, Nakajima, Noriko, Suzuki, Tadaki, Yoshida, Shinpei, Nobori, Haruaki, Sanaki, Takao, Kato, Teruhisa, Shishido, Takao, Hall, William W., Orba, Yasuko, Sato, Akihiko, Sawa, Hirofumi, Sasaki, Michihito, Tabata, Koshiro, Kishimoto, Mai, Itakura, Yukari, Kobayashi, Hiroko, Ariizumi, Takuma, Uemura, Kentaro, Toba, Shinsuke, Kusakabe, Shinji, Maruyama, Yuki, Iida, Shun, Nakajima, Noriko, Suzuki, Tadaki, Yoshida, Shinpei, Nobori, Haruaki, Sanaki, Takao, Kato, Teruhisa, Shishido, Takao, Hall, William W., Orba, Yasuko, Sato, Akihiko, and Sawa, Hirofumi

Abstract

In parallel with vaccination, oral antiviral agents are highly anticipated to act as countermeasures for the treatment of the coronavirus disease 2019 (COVID-19) pandemic caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Oral antiviral medication demands not only high antiviral activity but also target specificity, favorable oral bioavailability, and high metabolic stability. Although a large number of compounds have been identified as potential inhibitors of SARS-CoV-2 infection in vitro, few have proven to be effective in vivo. Here, we show that oral administration of S-217622 (ensitrelvir), an inhibitor of SARS-CoV-2 main protease (Mpro; also known as 3C-like protease), decreases viral load and ameliorates disease severity in SARS-CoV-2-infected hamsters. S-217622 inhibited viral proliferation at low nanomolar to submicromolar concentrations in cells. Oral administration of S-217622 demonstrated favorable pharmacokinetic properties and accelerated recovery from acute SARS-CoV-2 infection in hamster recipients. Moreover, S-217622 exerted antiviral activity against SARS-CoV-2 variants of concern, including the highly pathogenic Delta variant and the recently emerged Omicron BA.5 and BA.2.75 variants. Overall, our study provides evidence that S-217622, an antiviral agent that is under evaluation in a phase 3 clinical trial (clinical trial registration no. jRCT2031210350), has remarkable antiviral potency and efficacy against SARS-CoV-2 and is a prospective oral therapeutic option for COVID-19.

Published

2023

13. Morphogenesis of bullet-shaped rabies virus particles regulated by TSG101

Author

Itakura, Yukari, Tabata, Koshiro, 1000070908722, Saito, Takeshi, Intaruck, Kittiya, Kawaguchi, Nijiho, 1000020822068, Kishimoto, Mai, 1000040878287, Torii, Shiho, 1000000634205, Kobayashi, Shintaro, 1000020334922, Ito, Naoto, Harada, Michiko, 1000090213157, Inoue, Satoshi, 1000090284273, Maeda, Ken, 1000010292062, Takada, Ayato, Hall, William W., 1000060507169, Orba, Yasuko, 1000030292006, Sawa, Hirofumi, 1000070609403, Sasaki, Michihito, Itakura, Yukari, Tabata, Koshiro, 1000070908722, Saito, Takeshi, Intaruck, Kittiya, Kawaguchi, Nijiho, 1000020822068, Kishimoto, Mai, 1000040878287, Torii, Shiho, 1000000634205, Kobayashi, Shintaro, 1000020334922, Ito, Naoto, Harada, Michiko, 1000090213157, Inoue, Satoshi, 1000090284273, Maeda, Ken, 1000010292062, Takada, Ayato, Hall, William W., 1000060507169, Orba, Yasuko, 1000030292006, Sawa, Hirofumi, 1000070609403, and Sasaki, Michihito

Abstract

Viral protein assembly and virion budding are tightly regulated to enable the proper formation of progeny virions. At this late stage in the virus life cycle, some enveloped viruses take advantage of the host endosomal sorting complex required for transport (ESCRT) machinery, which contributes to the physiological functions of membrane modulation and abscission. Bullet-shaped viral particles are unique morphological characteristics of rhabdoviruses; however, the involvement of host factors in rhabdovirus infection and, specifically, the molecular mechanisms underlying virion formation are not fully understood. In the present study, we used a small interfering RNA (siRNA) screening approach and found that the ESCRT-I component TSG101 contributes to the propagation of rabies virus (RABV). We demonstrated that the matrix protein (M) of RABV interacts with TSG101 via the late domain containing the PY and YL motifs, which are conserved in various viral proteins. Loss of the YL motif in the RABV M or the downregulation of host TSG101 expression resulted in the intracellular aggregation of viral proteins and abnormal virus particle formation, indicating a defect in the RABV assembly and budding processes. These results indicate that the interaction of the RABV M and TSG101 is pivotal for not only the efficient budding of progeny RABV from infected cells but also for the bullet-shaped virion morphology. IMPORTANCE Enveloped viruses bud from cells with the host lipid bilayer. Generally, the membrane modulation and abscission are mediated by host ESCRT complexes. Some enveloped viruses utilize their late (L-) domain to interact with ESCRTs, which promotes viral budding. Rhabdoviruses form characteristic bullet-shaped enveloped virions, but the underlying molecular mechanisms involved remain elusive. Here, we showed that TSG101, one of the ESCRT components, supports rabies virus (RABV) budding and proliferation. TSG101 interacted with RABV matrix protein via the L-domain, and

Published

2023

14. Impact of Imprinted Immunity Induced by mRNA Vaccination in an Experimental Animal Model.

Author

Fujita, Shigeru, Uriu, Keiya, Pan, Lin, Nao, Naganori, Tabata, Koshiro, Kishimoto, Mai, Itakura, Yukari, Sawa, Hirofumi, Kida, Izumi, Tamura, Tomokazu, Consortium, The Genotype to Phenotype Japan (G2P-Japan), Fukuhara, Takasuke, Ito, Jumpei, Matsuno, Keita, and Sato, Kei

Subjects

SARS-CoV-2, HUMORAL immunity, HERD immunity, ANIMAL vaccination, SARS-CoV-2 Omicron variant, LABORATORY animals

Abstract

The emergence of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) Omicron variants has led to concerns that ancestral SARS-CoV-2-based vaccines may not be effective against newly emerging Omicron subvariants. The concept of "imprinted immunity" suggests that individuals vaccinated with ancestral virus-based vaccines may not develop effective immunity against newly emerging Omicron subvariants, such as BQ.1.1 and XBB.1. In this study, we investigated this possibility using hamsters. Although natural infection induced effective antiviral immunity, breakthrough infections in hamsters with BQ.1.1 and XBB.1 Omicron subvariants after receiving the 3-dose mRNA-lipid nanoparticle vaccine resulted in only faintly induced humoral immunity, supporting the possibility of imprinted immunity. [ABSTRACT FROM AUTHOR]

Published

2023

15. Isolation and Characterization of Distinct Rotavirus A in Bat and Rodent Hosts

Author

Kishimoto, Mai, primary, Kajihara, Masahiro, additional, Tabata, Koshiro, additional, Itakura, Yukari, additional, Toba, Shinsuke, additional, Ozono, Seiya, additional, Sato, Yuko, additional, Suzuki, Tadaki, additional, Ito, Naoto, additional, Changula, Katendi, additional, Qiu, Yongjin, additional, Mori-Kajihara, Akina, additional, Eto, Yoshiki, additional, Harima, Hayato, additional, Mwizabi, Daniel, additional, Hang’ombe, Bernard M., additional, Hall, William W., additional, Takada, Ayato, additional, Orba, Yasuko, additional, Sawa, Hirofumi, additional, and Sasaki, Michihito, additional

Published

2023

16. S-217622, a SARS-CoV-2 main protease inhibitor, decreases viral load and ameliorates COVID-19 severity in hamsters

Author

Sasaki, Michihito, primary, Tabata, Koshiro, additional, Kishimoto, Mai, additional, Itakura, Yukari, additional, Kobayashi, Hiroko, additional, Ariizumi, Takuma, additional, Uemura, Kentaro, additional, Toba, Shinsuke, additional, Kusakabe, Shinji, additional, Maruyama, Yuki, additional, Iida, Shun, additional, Nakajima, Noriko, additional, Suzuki, Tadaki, additional, Yoshida, Shinpei, additional, Nobori, Haruaki, additional, Sanaki, Takao, additional, Kato, Teruhisa, additional, Shishido, Takao, additional, Hall, William W., additional, Orba, Yasuko, additional, Sato, Akihiko, additional, and Sawa, Hirofumi, additional

Published

2023

17. Morphogenesis of bullet-shaped rabies virus particles requires a functional interplay between the viral matrix protein and ESCRT-I component TSG101

Author

Itakura, Yukari, primary, Tabata, Koshiro, additional, Saito, Takeshi, additional, Intaruck, Kittiya, additional, Kawaguchi, Nijiho, additional, Kishimoto, Mai, additional, Torii, Shiho, additional, Kobayashi, Shintaro, additional, Ito, Naoto, additional, Harada, Michiko, additional, Inoue, Satoshi, additional, Maeda, Ken, additional, Takada, Ayato, additional, Hall, William W., additional, Orba, Yasuko, additional, Sawa, Hirofumi, additional, and Sasaki, Michihito, additional

Published

2022

18. 2-Thiouridine is a broad-spectrum antiviral nucleoside analogue against positive-strand RNA viruses

Author

Uemura, Kentaro, primary, Nobori, Haruaki, additional, Sato, Akihiko, additional, Toba, Shinsuke, additional, Kusakabe, Shinji, additional, Sasaki, Michihito, additional, Tabata, Koshiro, additional, Matsuno, Keita, additional, Maeda, Naoyoshi, additional, Ito, Shiori, additional, Tanaka, Mayu, additional, Anraku, Yuki, additional, Kita, Shunsuke, additional, Ishii, Mayumi, additional, Kanamitsu, Kayoko, additional, Orba, Yasuko, additional, Matsuura, Yoshiharu, additional, Hall, William W., additional, Sawa, Hirofumi, additional, Kida, Hiroshi, additional, Matsuda, Akira, additional, and Maenaka, Katsumi, additional

Published

2022

19. Virological characteristics of the SARS-CoV-2 Omicron BA.2.75 variant

Author

Saito, Akatsuki, primary, Tamura, Tomokazu, additional, Zahradnik, Jiri, additional, Deguchi, Sayaka, additional, Tabata, Koshiro, additional, Anraku, Yuki, additional, Kimura, Izumi, additional, Ito, Jumpei, additional, Yamasoba, Daichi, additional, Nasser, Hesham, additional, Toyoda, Mako, additional, Nagata, Kayoko, additional, Uriu, Keiya, additional, Kosugi, Yusuke, additional, Fujita, Shigeru, additional, Shofa, Maya, additional, Monira Begum, MST, additional, Shimizu, Ryo, additional, Oda, Yoshitaka, additional, Suzuki, Rigel, additional, Ito, Hayato, additional, Nao, Naganori, additional, Wang, Lei, additional, Tsuda, Masumi, additional, Yoshimatsu, Kumiko, additional, Kuramochi, Jin, additional, Kita, Shunsuke, additional, Sasaki-Tabata, Kaori, additional, Fukuhara, Hideo, additional, Maenaka, Katsumi, additional, Yamamoto, Yuki, additional, Nagamoto, Tetsuharu, additional, Asakura, Hiroyuki, additional, Nagashima, Mami, additional, Sadamasu, Kenji, additional, Yoshimura, Kazuhisa, additional, Ueno, Takamasa, additional, Schreiber, Gideon, additional, Takaori-Kondo, Akifumi, additional, Shirakawa, Kotaro, additional, Sawa, Hirofumi, additional, Irie, Takashi, additional, Hashiguchi, Takao, additional, Takayama, Kazuo, additional, Matsuno, Keita, additional, Tanaka, Shinya, additional, Ikeda, Terumasa, additional, Fukuhara, Takasuke, additional, and Sato, Kei, additional

Published

2022

20. Serological characterization of lineage II insect-specific flaviviruses compared with pathogenic mosquito-borne flaviviruses

Author

Tabata, Koshiro, primary, Itakura, Yukari, additional, Toba, Shinsuke, additional, Uemura, Kentaro, additional, Kishimoto, Mai, additional, Sasaki, Michihito, additional, Harrison, Jessica J., additional, Sato, Akihiko, additional, Hall, William W., additional, Hall, Roy A., additional, Sawa, Hirofumi, additional, and Orba, Yasuko, additional

Published

2022

21. A high-affinity aptamer with base-appended base-modified DNA bound to isolated authentic SARS-CoV-2 strains wild-type and B.1.617.2 (delta variant)

Author

Minagawa, Hirotaka, primary, Sawa, Hirofumi, additional, Fujita, Tomoko, additional, Kato, Shintaro, additional, Inaguma, Asumi, additional, Hirose, Miwako, additional, Orba, Yasuko, additional, Sasaki, Michihito, additional, Tabata, Koshiro, additional, Nomura, Naoki, additional, Shingai, Masashi, additional, Suzuki, Yasuhiko, additional, and Horii, Katsunori, additional

Published

2022

22. Virological characteristics of the SARS-CoV-2 Omicron BA.2.75 variant

Author

80728270, 50632098, 10759509, Saito, Akatsuki, Tamura, Tomokazu, Zahradnik, Jiri, Deguchi, Sayaka, Tabata, Koshiro, Anraku, Yuki, Kimura, Izumi, Ito, Jumpei, Yamasoba, Daichi, Nasser, Hesham, Toyoda, Mako, Nagata, Kayoko, Uriu, Keiya, Kosugi, Yusuke, Fujita, Shigeru, Shofa, Maya, Monira Begum, M.S.T., Shimizu, Ryo, Oda, Yoshitaka, Suzuki, Rigel, Ito, Hayato, Nao, Naganori, Wang, Lei, Tsuda, Masumi, Yoshimatsu, Kumiko, Kuramochi, Jin, Kita, Shunsuke, Sasaki-Tabata, Kaori, Fukuhara, Hideo, Maenaka, Katsumi, Yamamoto, Yuki, Nagamoto, Tetsuharu, Asakura, Hiroyuki, Nagashima, Mami, Sadamasu, Kenji, Yoshimura, Kazuhisa, Ueno, Takamasa, Schreiber, Gideon, Takaori-Kondo, Akifumi, The Genotype to Phenotype Japan (G2P-Japan) Consortium, Shirakawa, Kotaro, Sawa, Hirofumi, Irie, Takashi, Hashiguchi, Takao, Takayama, Kazuo, Matsuno, Keita, Tanaka, Shinya, Ikeda, Terumasa, Fukuhara, Takasuke, Sato, Kei, 80728270, 50632098, 10759509, Saito, Akatsuki, Tamura, Tomokazu, Zahradnik, Jiri, Deguchi, Sayaka, Tabata, Koshiro, Anraku, Yuki, Kimura, Izumi, Ito, Jumpei, Yamasoba, Daichi, Nasser, Hesham, Toyoda, Mako, Nagata, Kayoko, Uriu, Keiya, Kosugi, Yusuke, Fujita, Shigeru, Shofa, Maya, Monira Begum, M.S.T., Shimizu, Ryo, Oda, Yoshitaka, Suzuki, Rigel, Ito, Hayato, Nao, Naganori, Wang, Lei, Tsuda, Masumi, Yoshimatsu, Kumiko, Kuramochi, Jin, Kita, Shunsuke, Sasaki-Tabata, Kaori, Fukuhara, Hideo, Maenaka, Katsumi, Yamamoto, Yuki, Nagamoto, Tetsuharu, Asakura, Hiroyuki, Nagashima, Mami, Sadamasu, Kenji, Yoshimura, Kazuhisa, Ueno, Takamasa, Schreiber, Gideon, Takaori-Kondo, Akifumi, The Genotype to Phenotype Japan (G2P-Japan) Consortium, Shirakawa, Kotaro, Sawa, Hirofumi, Irie, Takashi, Hashiguchi, Takao, Takayama, Kazuo, Matsuno, Keita, Tanaka, Shinya, Ikeda, Terumasa, Fukuhara, Takasuke, and Sato, Kei

Abstract

The SARS-CoV-2 Omicron BA.2.75 variant emerged in May 2022. BA.2.75 is a BA.2 descendant but is phylogenetically distinct from BA.5, the currently predominant BA.2 descendant. Here, we show that BA.2.75 has a greater effective reproduction number and different immunogenicity profile than BA.5. We determined the sensitivity of BA.2.75 to vaccinee and convalescent sera as well as a panel of clinically available antiviral drugs and antibodies. Antiviral drugs largely retained potency but antibody sensitivity varied depending on several key BA.2.75-specific substitutions. The BA.2.75 spike exhibited a profoundly higher affinity for its human receptor, ACE2. Additionally, the fusogenicity, growth efficiency in human alveolar epithelial cells, and intrinsic pathogenicity in hamsters of BA.2.75 were greater than those of BA.2. Our multilevel investigations suggest that BA.2.75 acquired virological properties independent of BA.5, and the potential risk of BA.2.75 to global health is greater than that of BA.5.

Published

2022

23. Glu(333)in rabies virus glycoprotein is involved in virus attenuation through astrocyte infection and interferon responses

Author

Itakura, Yukari, Tabata, Koshiro, Morimoto, Kohei, Ito, Naoto, Chambaro, Herman M., Eguchi, Ryota, Otsuguro, Ken-ichi, Hall, William W., 1000060507169, Orba, Yasuko, 1000030292006, Sawa, Hirofumi, 1000070609403, Sasaki, Michihito, Itakura, Yukari, Tabata, Koshiro, Morimoto, Kohei, Ito, Naoto, Chambaro, Herman M., Eguchi, Ryota, Otsuguro, Ken-ichi, Hall, William W., 1000060507169, Orba, Yasuko, 1000030292006, Sawa, Hirofumi, 1000070609403, and Sasaki, Michihito

Abstract

The amino add residue at position 333 of the rabies virus (RABV) glycoprotein (G333) is a major determinant of RABV pathogenicity. Virulent RABV strains possess Arg(333), whereas the attenuated strain HEP-Flury (HEP) possesses Glu(333). To investigate the potential attenuation mechanism dependent on a single amino add at G333, comparative analysis was performed between HEP and (HEPR)-R-333 mutant with Arg(333). We examined their respective tropism for astrocytes and the subsequent immune responses in astrocytes. Virus replication and subsequent interferon (IFN) responses in astrocytes infected with HEP were increased compared with (HEPR)-R-333 both in vitro and in vivo. Furthermore, involvement of IFN in the avirulency of HEP was demonstrated in IFN-receptor knockout mice. These results indicate that Glu(333) contributes to RABV attenuation by determining the ability of the virus to infect astrocytes and stimulate subsequent IFN responses.

Published

2022

24. Serological characterization of lineage II insect-specific flaviviruses compared with pathogenic mosquito-borne flaviviruses

Author

Tabata, Koshiro, Itakura, Yukari, Toba, Shinsuke, Uemura, Kentaro, Kishimoto, Mai, Sasaki, Michihito, Harrison, Jessica J., Sato, Akihiko, Hall, William W., Hall, Roy A., Sawa, Hirofumi, Orba, Yasuko, Tabata, Koshiro, Itakura, Yukari, Toba, Shinsuke, Uemura, Kentaro, Kishimoto, Mai, Sasaki, Michihito, Harrison, Jessica J., Sato, Akihiko, Hall, William W., Hall, Roy A., Sawa, Hirofumi, and Orba, Yasuko

Abstract

The genus Flavivirus includes pathogenic tick- and mosquito-borne flaviviruses as well as non-pathogenic insect-specific flaviviruses (ISFVs). Phylogenetic analysis based on whole amino acid sequences has indicated that lineage II ISFVs have similarities to pathogenic flaviviruses. In this study, we used reactive analysis with immune serum against Psorophora flavivirus (PSFV) as a lineage IIa ISFV, and Barkeji virus (BJV) as a lineage IIb ISFV, to evaluate the antigenic similarity among lineage IIa and IIb ISFVs, and pathogenic mosquito-borne flaviviruses (MBFVs). Binding and antibody-dependent enhancement assays showed that anti-PSFV sera had broad cross-reactivity with MBFV antigens, while anti-BJV sera had low cross-reactivity. Both of the lineage II ISFV antisera were rarely observed to neutralize MBFVs. These results suggest that lineage IIa ISFV PSFV has more antigenic similarity to MBFVs than lineage IIb ISFV BJV.

Published

2022

25. Glu333 in rabies virus glycoprotein is involved in virus attenuation through astrocyte infection and interferon responses

Author

Itakura, Yukari, primary, Tabata, Koshiro, additional, Morimoto, Kohei, additional, Ito, Naoto, additional, Chambaro, Herman M., additional, Eguchi, Ryota, additional, Otsuguro, Ken-ichi, additional, Hall, William W., additional, Orba, Yasuko, additional, Sawa, Hirofumi, additional, and Sasaki, Michihito, additional

Published

2022

26. Oral administration of S-217622, a SARS-CoV-2 main protease inhibitor, decreases viral load and accelerates recovery from clinical aspects of COVID-19

Author

Sasaki, Michihito, primary, Tabata, Koshiro, additional, Kishimoto, Mai, additional, Itakura, Yukari, additional, Kobayashi, Hiroko, additional, Ariizumi, Takuma, additional, Uemura, Kentaro, additional, Toba, Shinsuke, additional, Kusakabe, Shinji, additional, Maruyama, Yuki, additional, Iida, Shun, additional, Nakajima, Noriko, additional, Suzuki, Tadaki, additional, Yoshida, Shinpei, additional, Nobori, Haruaki, additional, Sanaki, Takao, additional, Kato, Teruhisa, additional, Shishido, Takao, additional, Hall, William W., additional, Orba, Yasuko, additional, Sato, Akihiko, additional, and Sawa, Hirofumi, additional

Published

2022

27. Air-liquid interphase culture confers SARS-CoV-2 susceptibility to A549 alveolar epithelial cells

Author

Sasaki, Michihito, primary, Kishimoto, Mai, additional, Itakura, Yukari, additional, Tabata, Koshiro, additional, Intaruck, Kittiya, additional, Uemura, Kentaro, additional, Toba, Shinsuke, additional, Sanaki, Takao, additional, Sato, Akihiko, additional, Hall, William W., additional, Orba, Yasuko, additional, and Sawa, Hirofumi, additional

Published

2021

28. SARS-CoV-2 Bearing a Mutation at the S1/S2 Cleavage Site Exhibits Attenuated Virulence and Confers Protective Immunity

Author

Sasaki, Michihito, primary, Toba, Shinsuke, additional, Itakura, Yukari, additional, Chambaro, Herman M., additional, Kishimoto, Mai, additional, Tabata, Koshiro, additional, Intaruck, Kittiya, additional, Uemura, Kentaro, additional, Sanaki, Takao, additional, Sato, Akihiko, additional, Hall, William W., additional, Orba, Yasuko, additional, and Sawa, Hirofumi, additional

Published

2021

29. Structure-Guided Creation of an Anti-HA Stalk Antibody F11 Derivative That Neutralizes Both F11-Sensitive and -Resistant Influenza A(H1N1)pdm09 Viruses

Author

Kotani, Osamu, primary, Suzuki, Yasushi, additional, Saito, Shinji, additional, Ainai, Akira, additional, Ueno, Akira, additional, Hemmi, Takuya, additional, Sano, Kaori, additional, Tabata, Koshiro, additional, Yokoyama, Masaru, additional, Suzuki, Tadaki, additional, Hasegawa, Hideki, additional, and Sato, Hironori, additional

Published

2021

30. Host Serine Proteases TMPRSS2 and TMPRSS11D Mediate Proteolytic Activation and Trypsin-Independent Infection in Group A Rotaviruses

Author

1000070609403, Sasaki, Michihito, Itakura, Yukari, Kishimoto, Mai, Tabata, Koshiro, Uemura, Kentaro, Ito, Naoto, Sugiyama, Makoto, Wastika, Christida E., 1000060507169, Orba, Yasuko, 1000030292006, Sawa, Hirofumi, 1000070609403, Sasaki, Michihito, Itakura, Yukari, Kishimoto, Mai, Tabata, Koshiro, Uemura, Kentaro, Ito, Naoto, Sugiyama, Makoto, Wastika, Christida E., 1000060507169, Orba, Yasuko, 1000030292006, and Sawa, Hirofumi

Abstract

Group A rotaviruses (RVAs) are representative enteric virus species and major causes of diarrhea in humans and animals. The RVA virion is a triple-layered particle, and the outermost layer consists of the glycoprotein VP7 and spike protein VP4. To increase the infectivity of RVA, VP4 is proteolytically cleaved into VP5* and VP8* subunits by trypsin; these subunits form a rigid spike structure on the virion surface. In this study, we investigated the growth of RVAs in cells transduced with type II transmembrane serine proteases (TTSPs), which cleave fusion proteins and promote infection by respiratory viruses, such as influenza viruses, paramyxoviruses, and coronaviruses. We identified TMPRSS2 and TMPRSS11D as host TTSPs that mediate trypsin-independent and multicycle infection by human and animal RVA strains. In vitro cleavage assays revealed that recombinant TMPRSS11D cleaved RVA VP4. We also found that TMPRSS2 and TMPRSS11D promote the infectious entry of immature RVA virions, but they could not activate nascent progeny virions in the late phase of infection. This observation differed from the TTSP-mediated activation process of paramyxoviruses, revealing the existence of virus species-specific activation processes in TTSPs. Our study provides new insights into the interaction between RVAs and host factors, and TTSP-transduced cells offer potential advantages for RVA research and development. IMPORTANCE Proteolytic cleavage of the viral VP4 protein is essential for virion maturation and infectivity in group A rotaviruses (RVAs). In cell culture, RVAs are propagated in culture medium supplemented with the exogenous protease trypsin, which cleaves VP4 and induces the maturation of progeny RVA virions. In this study, we demonstrated that the host proteases TMPRSS2 and TMPRSS11D mediate the trypsin-independent infection and growth of RVAs. Our data revealed that the proteolytic activation of RVAs by TMPRSS2 and TMPRSS11D occurs at the viral entry step. Because TMPRSS2

Published

2021

31. SARS-CoV-2 Bearing a Mutation at the S1/S2 Cleavage Site Exhibits Attenuated Virulence and Confers Protective Immunity

Author

1000070609403, Sasaki, Michihito, Toba, Shinsuke, Itakura, Yukari, Chambaro, Herman M., Kishimoto, Mai, Tabata, Koshiro, Intaruck, Kittiya, Uemura, Kentaro, Sanaki, Takao, Sato, Akihiro, Hall, William W., 1000060507169, Orba, Yasuko, 1000030292006, Sawa, Hirofumi, 1000070609403, Sasaki, Michihito, Toba, Shinsuke, Itakura, Yukari, Chambaro, Herman M., Kishimoto, Mai, Tabata, Koshiro, Intaruck, Kittiya, Uemura, Kentaro, Sanaki, Takao, Sato, Akihiro, Hall, William W., 1000060507169, Orba, Yasuko, 1000030292006, and Sawa, Hirofumi

Abstract

Severe acute respiratory syndrome-coronavirus-2 (SARS-CoV-2) possesses a discriminative polybasic cleavage motif in its spike protein that is recognized by the host furin protease. Proteolytic cleavage activates the spike protein, thereby affecting both the cellular entry pathway and cell tropism of SARS-CoV-2. Here, we investigated the impact of the furin cleavage site on viral growth and pathogenesis using a hamster animal model infected with SARS-CoV-2 variants bearing mutations at the furin cleavage site (S gene mutants). In the airway tissues of hamsters, the S gene mutants exhibited low growth properties. In contrast to parental pathogenic SARS-CoV-2, hamsters infected with the S gene mutants showed no body weight loss and only a mild inflammatory response, thereby indicating the attenuated variant nature of S gene mutants. This transient infection was sufficient for inducing protective neutralizing antibodies that cross-react with different SARS-CoV-2 lineages. Consequently, hamsters inoculated with S gene mutants showed resistance to subsequent infection with both the parental strain and the currently emerging SARS-CoV-2 variants belonging to lineages B.1.1.7 and P.1. Taken together, our findings revealed that the loss of the furin cleavage site causes attenuation in the airway tissues of hamsters and highlighted the potential benefits of S gene mutants as potential immunogens. SARS-CoV-2 uses its spike protein to enter target cells. The spike protein is cleaved by a host protease, and this event facilitates viral entry and broadens cell tropism. In this study, we employed SARS-CoV-2 mutants lacking the S protein cleavage site and characterized their growth and pathogenicity using hamsters, a laboratory animal model for SARS-CoV-2 infection. These mutants exerted low pathogenicity but induced sufficient levels of neutralizing antibodies in hamsters, which protected hamsters from rechallenge with pathogenic clinical SARS-CoV-2 strains. These virus mutants may

Published

2021

32. Air-liquid interphase culture confers SARS-CoV-2 susceptibility to A549 alveolar epithelial cells

Author

1000070609403, Sasaki, Michihito, Kishimoto, Mai, Itakura, Yukari, Tabata, Koshiro, Intaruck, Kittiya, Uemura, Kentaro, Toba, Shinsuke, Sanaki, Takao, Sato, Akihiko, Hall, William W., 1000060507169, Orba, Yasuko, 1000030292006, Sawa, Hirofumi, 1000070609403, Sasaki, Michihito, Kishimoto, Mai, Itakura, Yukari, Tabata, Koshiro, Intaruck, Kittiya, Uemura, Kentaro, Toba, Shinsuke, Sanaki, Takao, Sato, Akihiko, Hall, William W., 1000060507169, Orba, Yasuko, 1000030292006, and Sawa, Hirofumi

Abstract

The human lung cell A549 is susceptible to infection with a number of respiratory viruses. However, A549 cells are resistant to Severe Acute Respiratory Syndrome-Coronavirus-2 (SARS-CoV-2) infection in conventional submerged culture, and this would appear to be due to low expression levels of the SARSCoV-2 entry receptor: angiotensin-converting enzyme-2 (ACE2). Here, we examined SARS-CoV-2 susceptibility to A549 cells after adaptation to air-liquid interface (ALI) culture. A549 cells in ALI culture yielded a layer of mucus on their apical surface, exhibited decreased expression levels of the proliferation marker KI-67 and intriguingly became susceptible to SARS-CoV-2 infection. We found that A549 cells increased the endogenous expression levels of ACE2 and TMPRSS2 following adaptation to ALI culture conditions. Camostat, a TMPRSS2 inhibitor, reduced SARS-CoV-2 infection in ALI-cultured A549 cells. These findings indicate that ALI culture switches the phenotype of A549 cells from resistance to susceptibility to SARS-CoV-2 infection through upregulation of ACE2 and TMPRSS2. (c) 2021 Elsevier Inc. All rights reserved.

Published

2021

33. Host serine proteases TMPRSS2 and TMPRSS11D mediate proteolytic activation and trypsin-independent infection in group A rotaviruses

Author

Sasaki, Michihito, Itakura, Yukari, Kishimoto, Mai, Tabata, Koshiro, Uemura, Kentaro, Ito, Naoto, Sugiyama, Makoto, Wastika, Christida E, Orba, Yasuko, Sawa, Hirofumi, Sasaki, Michihito, Itakura, Yukari, Kishimoto, Mai, Tabata, Koshiro, Uemura, Kentaro, Ito, Naoto, Sugiyama, Makoto, Wastika, Christida E, Orba, Yasuko, and Sawa, Hirofumi

Abstract

Group A rotaviruses (RVAs) are representative enteric virus species and major causes of diarrhea in humans and animals. The RVA virion is a triple-layered particle, and the outermost layer consists of the glycoprotein VP7 and spike protein VP4. To increase the infectivity of RVA, VP4 is proteolytically cleaved into VP5* and VP8* subunits by trypsin; these subunits form a rigid spike structure on the virion surface. In this study, we investigated the growth of RVAs in cells transduced with type II transmembrane serine proteases (TTSPs), which cleave fusion proteins and promote infection by respiratory viruses, such as influenza viruses, paramyxoviruses, and coronaviruses. We identified TMPRSS2 and TMPRSS11D as host TTSPs that mediate trypsin-independent and multicycle infection by human and animal RVA strains. In vitro cleavage assays revealed that recombinant TMPRSS11D cleaved RVA VP4. We also found that TMPRSS2 and TMPRSS11D promote the infectious entry of immature RVA virions, but they could not activate nascent progeny virions in the late phase of infection. This observation differed from the TTSP-mediated activation process of paramyxoviruses, revealing the existence of virus species-specific activation processes in TTSPs. Our study provides new insights into the interaction between RVAs and host factors, and TTSP-transduced cells offer potential advantages for RVA research and development.

Published

2021

34. SARS-CoV-2 Bearing a Mutation at the S1/S2 Cleavage Site Exhibits Attenuated Virulence and Confers Protective Immunity

Author

Sasaki, Michihito, Toba, Shinsuke, Itakura, Yukari, Chambaro, Herman M., Kishimoto, Mai, Tabata, Koshiro, Intaruck, Kittiya, Uemura, Kentaro, Sanaki, Takao, Sato, Akihiro, Hall, William W., Orba, Yasuko, Sawa, Hirofumi, Sasaki, Michihito, Toba, Shinsuke, Itakura, Yukari, Chambaro, Herman M., Kishimoto, Mai, Tabata, Koshiro, Intaruck, Kittiya, Uemura, Kentaro, Sanaki, Takao, Sato, Akihiro, Hall, William W., Orba, Yasuko, and Sawa, Hirofumi

Abstract

Severe acute respiratory syndrome-coronavirus-2 (SARS-CoV-2) possesses a discriminative polybasic cleavage motif in its spike protein that is recognized by the host furin protease. Proteolytic cleavage activates the spike protein, thereby affecting both the cellular entry pathway and cell tropism of SARS-CoV-2. Here, we investigated the impact of the furin cleavage site on viral growth and pathogenesis using a hamster animal model infected with SARS-CoV-2 variants bearing mutations at the furin cleavage site (S gene mutants). In the airway tissues of hamsters, the S gene mutants exhibited low growth properties. In contrast to parental pathogenic SARS-CoV-2, hamsters infected with the S gene mutants showed no body weight loss and only a mild inflammatory response, thereby indicating the attenuated variant nature of S gene mutants. This transient infection was sufficient for inducing protective neutralizing antibodies that cross-react with different SARS-CoV-2 lineages. Consequently, hamsters inoculated with S gene mutants showed resistance to subsequent infection with both the parental strain and the currently emerging SARS-CoV-2 variants belonging to lineages B.1.1.7 and P.1. Taken together, our findings revealed that the loss of the furin cleavage site causes attenuation in the airway tissues of hamsters and highlighted the potential benefits of S gene mutants as potential immunogens. SARS-CoV-2 uses its spike protein to enter target cells. The spike protein is cleaved by a host protease, and this event facilitates viral entry and broadens cell tropism. In this study, we employed SARS-CoV-2 mutants lacking the S protein cleavage site and characterized their growth and pathogenicity using hamsters, a laboratory animal model for SARS-CoV-2 infection. These mutants exerted low pathogenicity but induced sufficient levels of neutralizing antibodies in hamsters, which protected hamsters from rechallenge with pathogenic clinical SARS-CoV-2 strains. These virus mutants may

Published

2021

35. Air-liquid interphase culture confers SARS-CoV-2 susceptibility to A549 alveolar epithelial cells

Author

Sasaki, Michihito, Kishimoto, Mai, Itakura, Yukari, Tabata, Koshiro, Intaruck, Kittiya, Uemura, Kentaro, Toba, Shinsuke, Sanaki, Takao, Sato, Akihiko, Hall, William W., Orba, Yasuko, Sawa, Hirofumi, Sasaki, Michihito, Kishimoto, Mai, Itakura, Yukari, Tabata, Koshiro, Intaruck, Kittiya, Uemura, Kentaro, Toba, Shinsuke, Sanaki, Takao, Sato, Akihiko, Hall, William W., Orba, Yasuko, and Sawa, Hirofumi

Abstract

The human lung cell A549 is susceptible to infection with a number of respiratory viruses. However, A549 cells are resistant to Severe Acute Respiratory Syndrome-Coronavirus-2 (SARS-CoV-2) infection in conventional submerged culture, and this would appear to be due to low expression levels of the SARSCoV-2 entry receptor: angiotensin-converting enzyme-2 (ACE2). Here, we examined SARS-CoV-2 susceptibility to A549 cells after adaptation to air-liquid interface (ALI) culture. A549 cells in ALI culture yielded a layer of mucus on their apical surface, exhibited decreased expression levels of the proliferation marker KI-67 and intriguingly became susceptible to SARS-CoV-2 infection. We found that A549 cells increased the endogenous expression levels of ACE2 and TMPRSS2 following adaptation to ALI culture conditions. Camostat, a TMPRSS2 inhibitor, reduced SARS-CoV-2 infection in ALI-cultured A549 cells. These findings indicate that ALI culture switches the phenotype of A549 cells from resistance to susceptibility to SARS-CoV-2 infection through upregulation of ACE2 and TMPRSS2. (c) 2021 Elsevier Inc. All rights reserved.

Published

2021

36. Host Serine Proteases TMPRSS2 and TMPRSS11D Mediate Proteolytic Activation and Trypsin-Independent Infection in Group A Rotaviruses

Author

Sasaki, Michihito, primary, Itakura, Yukari, additional, Kishimoto, Mai, additional, Tabata, Koshiro, additional, Uemura, Kentaro, additional, Ito, Naoto, additional, Sugiyama, Makoto, additional, Wastika, Christida E., additional, Orba, Yasuko, additional, and Sawa, Hirofumi, additional

Published

2021

37. A wide distribution of Beiji nairoviruses and related viruses in Ixodesticks in Japan

Author

Kishimoto, Mai, Itakura, Yukari, Tabata, Koshiro, Komagome, Rika, Yamaguchi, Hiroki, Ogasawara, Kohei, Nakao, Ryo, Qiu, Yongjin, Sato, Kozue, Kawabata, Hiroki, Kajihara, Masahiro, Monma, Naota, Seto, Junji, Shigeno, Asako, Horie, Masayuki, Sasaki, Michihito, Hall, William W., Sawa, Hirofumi, Orba, Yasuko, and Matsuno, Keita

Abstract

Beiji nairovirus (BJNV), in the family Nairoviridae, the order Bunyavirales, was recently reported as a causative agent of an emerging tick-borne zoonotic infection in China. This study investigated the prevalence of BJNV in ticks in Japan. Screening of over 2,000 ticks from multiple regions revealed a widespread distribution of BJNV and BJNV-related viruses in Japan, particularly in the northern island, and in other high altitude areas with exclusive occurrence of Ixodesticks. Phylogenetic analysis identified three distinct groups of nairoviruses in ticks in Japan: BJNV, Yichun nairovirus (YCNV) and a newly identified Mikuni nairovirus (MKNV). BJNV and YCNV variants identified in ticks in Japan exhibited high nucleotide sequence identities to those in China and Russia with evidence of non-monophyletic evolution among BJNVs, suggesting multiple cross-border transmission events of BJNV between the Eurasian continent and Japan. Whole genome sequencing of BJNV and MKNV revealed a unique GA-rich region in the S segment, the significance of which remains to be determined. In conclusion, the present study has shown a wide distribution and diversity of BJNV-related nairoviruses in Ixodesticks in Japan and has identified unique genomic structures. The findings demonstrate the significance of BJNV as well as related viruses in Japan and highlight the necessity of monitoring emerging nairovirus infections and their potential risks to public health.

Published

2024

38. Host ESCRT factors are recruited during chikungunya virus infection and are required for the intracellular viral replication cycle

Author

Torii, Shiho, 1000060507169, Orba, Yasuko, 1000070609403, Sasaki, Michihito, Tabata, Koshiro, Wada, Yuji, 1000070769588, Carr, Michael, Hobson-Peters, Jody, Hall, Roy A., 1000010292062, Takada, Ayato, 1000070598739, Fukuhara, Takasuke, 1000050157252, Matsuura, Yoshiharu, Hall, William W., 1000030292006, Sawa, Hirofumi, Torii, Shiho, 1000060507169, Orba, Yasuko, 1000070609403, Sasaki, Michihito, Tabata, Koshiro, Wada, Yuji, 1000070769588, Carr, Michael, Hobson-Peters, Jody, Hall, Roy A., 1000010292062, Takada, Ayato, 1000070598739, Fukuhara, Takasuke, 1000050157252, Matsuura, Yoshiharu, Hall, William W., 1000030292006, and Sawa, Hirofumi

Abstract

Chikungunya fever is a re-emerging zoonotic disease caused by chikungunya virus (CHIKV), a member of the Alphavirus genus in the Togaviridae family. Only a few studies have reported on the host factors required for intracellular CHIKV trafficking. Here, we conducted an imaging-based siRNA screen to identify human host factors for intracellular trafficking that are involved in CHIKV infection, examined their interactions with CHIKV proteins, and investigated the contributions of these proteins to CHIKV infection. The results of the siRNA screen revealed that host endosomal sorting complexes required for transport (ESCRT) proteins are recruited during CHIKV infection. Co-immunoprecipitation analyses revealed that both structural and nonstructural CHIKV proteins interact with hepatocyte growth factor?regulated tyrosine kinase substrate (HGS), a component of the ESCRT-0 complex. We also observed that HGS co-localizes with the E2 protein of CHIKV and with dsRNA, a marker of the replicated CHIKV genome. Results from gene knockdown analyses indicated that, along with other ESCRT factors, HGS facilitates both genome replication and post-translational steps during CHIKV infection. Moreover, we show that ESCRT factors are also required for infections with other alphaviruses. We conclude that during CHIKV infection, several ESCRT factors are recruited via HGS and are involved in viral genome replication and post-translational processing of viral proteins.

Published

2020

39. An influenza HA stalk reactive polymeric IgA antibody exhibits anti-viral function regulated by binary interaction between HA and the antibody

Author

Sano, Kaori, primary, Saito, Shinji, additional, Suzuki, Tadaki, additional, Kotani, Osamu, additional, Ainai, Akira, additional, van Riet, Elly, additional, Tabata, Koshiro, additional, Saito, Kumpei, additional, Takahashi, Yoshimasa, additional, Yokoyama, Masaru, additional, Sato, Hironori, additional, Maruno, Takahiro, additional, Usami, Kaede, additional, Uchiyama, Susumu, additional, Ogawa-Goto, Kiyoko, additional, and Hasegawa, Hideki, additional

Published

2021

40. Stereotyped B-cell response that counteracts antigenic variation of influenza viruses

Author

Tonouchi, Keisuke, primary, Adachi, Yu, additional, Moriyama, Saya, additional, Sano, Kaori, additional, Tabata, Koshiro, additional, Ide, Keigo, additional, Takeyama, Haruko, additional, Suzuki, Tadaki, additional, and Takahashi, Yoshimasa, additional

Published

2020

41. Host ESCRT factors are recruited during chikungunya virus infection and are required for the intracellular viral replication cycle

Author

Torii, Shiho, primary, Orba, Yasuko, additional, Sasaki, Michihito, additional, Tabata, Koshiro, additional, Wada, Yuji, additional, Carr, Michael, additional, Hobson-Peters, Jody, additional, Hall, Roy A., additional, Takada, Ayato, additional, Fukuhara, Takasuke, additional, Matsuura, Yoshiharu, additional, Hall, William W., additional, and Sawa, Hirofumi, additional

Published

2020

42. IgA tetramerization improves target breadth but not peak potency of functionality of anti-influenza virus broadly neutralizing antibody

Author

Saito, Shinji, primary, Sano, Kaori, additional, Suzuki, Tadaki, additional, Ainai, Akira, additional, Taga, Yuki, additional, Ueno, Tomonori, additional, Tabata, Koshiro, additional, Saito, Kumpei, additional, Wada, Yuji, additional, Ohara, Yuki, additional, Takeyama, Haruko, additional, Odagiri, Takato, additional, Kageyama, Tsutomu, additional, Ogawa-Goto, Kiyoko, additional, Multihartina, Pretty, additional, Setiawaty, Vivi, additional, Pangesti, Krisna Nur Andriana, additional, and Hasegawa, Hideki, additional

Published

2019

43. Shape-dependent adjuvanticity of nanoparticle-conjugated RNA adjuvants for intranasal inactivated influenza vaccines

Author

Tazaki, Taiyu, primary, Tabata, Koshiro, additional, Ainai, Akira, additional, Ohara, Yuki, additional, Kobayashi, Shintaro, additional, Ninomiya, Takafumi, additional, Orba, Yasuko, additional, Mitomo, Hideyuki, additional, Nakano, Tetsuo, additional, Hasegawa, Hideki, additional, Ijiro, Kuniharu, additional, Sawa, Hirofumi, additional, Suzuki, Tadaki, additional, and Niikura, Kenichi, additional

Published

2018

44. S-217622, a SARS-CoV-2 main protease inhibitor, decreases viral load and ameliorates COVID-19 severity in hamsters

Author

Sasaki, Michihito, Tabata, Koshiro, Kishimoto, Mai, Itakura, Yukari, Kobayashi, Hiroko, Ariizumi, Takuma, Uemura, Kentaro, Toba, Shinsuke, Kusakabe, Shinji, Maruyama, Yuki, Iida, Shun, Nakajima, Noriko, Suzuki, Tadaki, Yoshida, Shinpei, Nobori, Haruaki, Sanaki, Takao, Kato, Teruhisa, Shishido, Takao, Hall, William W., Orba, Yasuko, Sato, Akihiko, and Sawa, Hirofumi

Abstract

In parallel with vaccination, oral antiviral agents are highly anticipated to act as countermeasures for the treatment of the coronavirus disease 2019 (COVID-19) pandemic caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Oral antiviral medication demands not only high antiviral activity but also target specificity, favorable oral bioavailability, and high metabolic stability. Although a large number of compounds have been identified as potential inhibitors of SARS-CoV-2 infection in vitro, few have proven to be effective in vivo. Here, we show that oral administration of S-217622 (ensitrelvir), an inhibitor of SARS-CoV-2 main protease (Mpro; also known as 3C-like protease), decreases viral load and ameliorates disease severity in SARS-CoV-2–infected hamsters. S-217622 inhibited viral proliferation at low nanomolar to submicromolar concentrations in cells. Oral administration of S-217622 demonstrated favorable pharmacokinetic properties and accelerated recovery from acute SARS-CoV-2 infection in hamster recipients. Moreover, S-217622 exerted antiviral activity against SARS-CoV-2 variants of concern, including the highly pathogenic Delta variant and the recently emerged Omicron BA.5 and BA.2.75 variants. Overall, our study provides evidence that S-217622, an antiviral agent that is under evaluation in a phase 3 clinical trial (clinical trial registration no. jRCT2031210350), has remarkable antiviral potency and efficacy against SARS-CoV-2 and is a prospective oral therapeutic option for COVID-19.

Published

2022

45. African lineage 1a West Nile virus isolated from crocodiles exhibits low neuroinvasiveness in mice.

Author

Kobayashi H, Chambaro H, Tabata K, Ariizumi T, Phongphaew W, Ndashe K, Ndebe J, Fandamu P, Kobayashi S, Ito N, Sasaki M, Hang'ombe BM, Simulundu E, Orba Y, and Sawa H

Subjects

Animals, Mice, Chlorocebus aethiops, Vero Cells, Virulence, Zambia, Female, West Nile Fever virology, West Nile virus genetics, West Nile virus pathogenicity, West Nile virus isolation & purification, Alligators and Crocodiles virology, Mice, Inbred C57BL

Abstract

West Nile virus (WNV) is a mosquito-borne flavivirus that causes encephalitis in humans and infects crocodiles, resulting in rashes and neurological signs. In Zambia, two distinct lineages of WNV have been detected in neighbouring areas: lineage 2 in mosquitoes and lineage 1a in farmed crocodiles. Considering the risk of direct or vector-mediated WNV transmission from crocodiles to mammals, it is necessary to elucidate the pathogenicity of WNV strains derived from crocodiles. In this study, WNV was successfully isolated from naturally infected farmed crocodiles (Croc110/2019/1/ZM, Croc110). We then investigated its proliferation and pathogenicity in mice in comparison with a WNV isolate from mosquitoes in Zambia (Zmq16) and two reference strains, including one highly pathogenic (NY99) and one low pathogenic (Eg101) strain. Although viral proliferation in Vero and mammalian neuronal cells was comparable among the strains, Croc110 exhibited low cell-to-cell transmission efficiency. In vivo , more than 70% of mice (C57BL/6) intracerebrally inoculated with Croc110 displayed neurological signs, and Croc110-infected mice exhibited similarly high mortality rates as NY99- and Zmq16-infected mice. Meanwhile, comparable virus growth was observed among the strains in the brain. However, the virulence of Croc110 was significantly lower than that of Zmq16 and NY99 following intradermal (ID) and intraperitoneal inoculation. Consistently, Croc110 displayed lower growth than Zmq16 and NY99 in the brain and peripheral tissues after ID inoculation. Our study revealed that the crocodile-derived WNV strain is less neuroinvasive in mice, and it exhibits distinct pathogenicity from the highly pathogenic mosquito-derived WNV strain circulating in Zambia.

Published

2024

46. Characterization of a mammalian orthoreovirus isolated from the large flying fox, Pteropus vampyrus, in Indonesia.

Author

Intaruck K, Tabata K, Itakura Y, Kawaguchi N, Kishimoto M, Setiyono A, Handharyani E, Harima H, Kimura T, Hall WW, Orba Y, Sawa H, and Sasaki M

Subjects

Animals, Indonesia, Mice, Humans, Sequence Analysis, DNA, Chiroptera virology, Phylogeny, Genome, Viral, Reoviridae Infections virology, Reoviridae Infections veterinary, Feces virology, Orthoreovirus, Mammalian genetics, Orthoreovirus, Mammalian isolation & purification, Orthoreovirus, Mammalian classification

Abstract

Fruit bats serve as an important reservoir for many zoonotic pathogens, including Nipah virus, Hendra virus, Marburg virus and Lyssavirus. To gain a deeper insight into the virological characteristics, pathogenicity and zoonotic potential of bat-borne viruses, recovery of infectious viruses from field samples is important. Here, we report the isolation and characterization of a mammalian orthoreovirus (MRV) from a large flying fox ( Pteropus vampyrus ) in Indonesia, which is the first detection of MRV in Southeast Asia. MRV was recovered from faecal samples of three different P. vampyrus in Central Java. Nucleotide sequence analysis revealed that the genome of the three MRV isolates shared more than 99% nucleotide sequence identity. We tentatively named one isolated strain as MRV12-52 for further analysis and characterization. Among 10 genome segments, MRV12-52 S1 and S4, which encode the cell-attachment protein and outer capsid protein, had 93.6 and 95.1% nucleotide sequence identities with known MRV strains, respectively. Meanwhile, the remaining genome segments of MRV12-52 were divergent with 72.9-80.7 % nucleotide sequence identities. Based on the nucleotide sequence of the S1 segment, MRV12-52 was grouped into serotype 2, and phylogenetic analysis demonstrated evidence of past reassortment events. In vitro characterization of MRV12-52 showed that the virus efficiently replicated in BHK-21, HEK293T and A549 cells. In addition, experimental infection of laboratory mice with MRV12-52 caused severe pneumonia with 75% mortality. This study highlights the presence of pathogenic MRV in Indonesia, which could serve as a potential animal and public health concern.

Published

2024

47. Glu 333 in rabies virus glycoprotein is involved in virus attenuation through astrocyte infection and interferon responses.

Author

Itakura Y, Tabata K, Morimoto K, Ito N, Chambaro HM, Eguchi R, Otsuguro KI, Hall WW, Orba Y, Sawa H, and Sasaki M

Abstract

The amino acid residue at position 333 of the rabies virus (RABV) glycoprotein (G333) is a major determinant of RABV pathogenicity. Virulent RABV strains possess Arg 333 , whereas the attenuated strain HEP-Flury (HEP) possesses Glu 333 . To investigate the potential attenuation mechanism dependent on a single amino acid at G333, comparative analysis was performed between HEP and HEP 333 R mutant with Arg 333 . We examined their respective tropism for astrocytes and the subsequent immune responses in astrocytes. Virus replication and subsequent interferon (IFN) responses in astrocytes infected with HEP were increased compared with HEP 333 R both in vitro and in vivo . Furthermore, involvement of IFN in the avirulency of HEP was demonstrated in IFN-receptor knockout mice. These results indicate that Glu 333 contributes to RABV attenuation by determining the ability of the virus to infect astrocytes and stimulate subsequent IFN responses., Competing Interests: The authors declare no competing interests., (© 2022 The Author(s).)

Published

2022