Your search keyword '"Ito, Jumpei"' showing total 16 results

1. Multicolor and multi-spot observations of Starlink’s Visorsat

Author

Horiuchi, Takashi, Hanayama, Hidekazu, Ohishi, Masatoshi, Nakaoka, Tatsuya, Imazawa, Ryo, Kawabata, Koji S, Takahashi, Jun, Onozato, Hiroki, Saito, Tomoki, Yamanaka, Masayuki, Nogami, Daisaku, Tampo, Yusuke, Kojiguchi, Naoto, Ito, Jumpei, Shibata, Masaaki, Schramm, Malte, Oasa, Yumiko, Kanai, Takahiro, Oide, Kohei, Murata, Katsuhiro L, Hosokawa, Ryohei, Takamatsu, Yutaka, Imai, Yuri, Ito, Naohiro, Niwano, Masafumi, Takagi, Seiko, Ono, Tatsuharu, and Kouprianov, Vladimir V

Abstract

This study provides the results of simultaneous multicolor observations for the first Visorsat (STARLINK-1436) and the ordinary Starlink satellite (STARLINK-1113) in the U, B, V, g′, r, i, RC, IC, $z$, J, H, and Ksbands to quantitatively investigate the extent to which Visorsat reduces its reflected light. Our results are as follows: (1) in most cases, Visorsat is fainter than STARLINK-1113, and the sunshade on Visorsat therefore contributes to the reduction of the reflected sunlight; (2) the magnitude at 550 km altitude (normalized magnitude) of both satellites often reaches the naked-eye limiting magnitude (<6.0); (3) from a blackbody radiation model of the reflected flux, the peak of the reflected components of both satellites is around the $z$band; and (4) the albedo of the near-infrared range is larger than that of the optical range. Under the assumption that Visorsat and STARLINK-1113 have the same reflectivity, we estimate the covering factor, Cf, of the sunshade on Visorsat, using the blackbody radiation model: the covering factor ranges from 0.18 ≤ Cf≤ 0.92. From the multivariable analysis of the solar phase angle (Sun–target–observer), the normalized magnitude, and the covering factor, the phase angle versus covering factor distribution presents a moderate anti-correlation between them, suggesting that the magnitudes of Visorsat depend not only on the phase angle but also on the orientation of the sunshade along our line of sight. However, the impact on astronomical observations from Visorsat-designed satellites remains serious. Thus, new countermeasures are necessary for the Starlink satellites to further reduce reflected sunlight.

Published

2023

2. Attenuated fusogenicity and pathogenicity of SARS-CoV-2 Omicron variant

Author

Suzuki, Rigel, Yamasoba, Daichi, Kimura, Izumi, Wang, Lei, Kishimoto, Mai, Ito, Jumpei, Morioka, Yuhei, Nao, Naganori, Nasser, Hesham, Uriu, Keiya, Kosugi, Yusuke, Tsuda, Masumi, Orba, Yasuko, Sasaki, Michihito, Shimizu, Ryo, Kawabata, Ryoko, Yoshimatsu, Kumiko, Asakura, Hiroyuki, Nagashima, Mami, Sadamasu, Kenji, Yoshimura, Kazuhisa, Sawa, Hirofumi, Ikeda, Terumasa, Irie, Takashi, Matsuno, Keita, Tanaka, Shinya, Fukuhara, Takasuke, and Sato, Kei

Abstract

The emergence of the Omicron variant of SARS-CoV-2 is an urgent global health concern1. In this study, our statistical modelling suggests that Omicron has spread more rapidly than the Delta variant in several countries including South Africa. Cell culture experiments showed Omicron to be less fusogenic than Delta and than an ancestral strain of SARS-CoV-2. Although the spike (S) protein of Delta is efficiently cleaved into two subunits, which facilitates cell–cell fusion2,3, the Omicron S protein was less efficiently cleaved compared to the S proteins of Delta and ancestral SARS-CoV-2. Furthermore, in a hamster model, Omicron showed decreased lung infectivity and was less pathogenic compared to Delta and ancestral SARS-CoV-2. Our multiscale investigations reveal the virological characteristics of Omicron, including rapid growth in the human population, lower fusogenicity and attenuated pathogenicity.

Published

2022

3. Enhanced fusogenicity and pathogenicity of SARS-CoV-2 Delta P681R mutation

Author

Saito, Akatsuki, Irie, Takashi, Suzuki, Rigel, Maemura, Tadashi, Nasser, Hesham, Uriu, Keiya, Kosugi, Yusuke, Shirakawa, Kotaro, Sadamasu, Kenji, Kimura, Izumi, Ito, Jumpei, Wu, Jiaqi, Iwatsuki-Horimoto, Kiyoko, Ito, Mutsumi, Yamayoshi, Seiya, Loeber, Samantha, Tsuda, Masumi, Wang, Lei, Ozono, Seiya, Butlertanaka, Erika P., Tanaka, Yuri L., Shimizu, Ryo, Shimizu, Kenta, Yoshimatsu, Kumiko, Kawabata, Ryoko, Sakaguchi, Takemasa, Tokunaga, Kenzo, Yoshida, Isao, Asakura, Hiroyuki, Nagashima, Mami, Kazuma, Yasuhiro, Nomura, Ryosuke, Horisawa, Yoshihito, Yoshimura, Kazuhisa, Takaori-Kondo, Akifumi, Imai, Masaki, Tanaka, Shinya, Nakagawa, So, Ikeda, Terumasa, Fukuhara, Takasuke, Kawaoka, Yoshihiro, and Sato, Kei

Abstract

During the current coronavirus disease 2019 (COVID-19) pandemic, a variety of mutations have accumulated in the viral genome of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) and, at the time of writing, four variants of concern are considered to be potentially hazardous to human society1. The recently emerged B.1.617.2/Delta variant of concern is closely associated with the COVID-19 surge that occurred in India in the spring of 2021 (ref. 2). However, the virological properties of B.1.617.2/Delta remain unclear. Here we show that the B.1.617.2/Delta variant is highly fusogenic and notably more pathogenic than prototypic SARS-CoV-2 in infected hamsters. The P681R mutation in the spike protein, which is highly conserved in this lineage, facilitates cleavage of the spike protein and enhances viral fusogenicity. Moreover, we demonstrate that the P681R-bearing virus exhibits higher pathogenicity compared with its parental virus. Our data suggest that the P681R mutation is a hallmark of the virological phenotype of the B.1.617.2/Delta variant and is associated with enhanced pathogenicity.

Published

2022

4. Cytokine mRNA Degradation in Cardiomyocytes Restrains Sterile Inflammation in Pressure-Overloaded Hearts

Author

Omiya, Shigemiki, Omori, Yosuke, Taneike, Manabu, Murakawa, Tomokazu, Ito, Jumpei, Tanada, Yohei, Nishida, Kazuhiko, Yamaguchi, Osamu, Satoh, Takashi, Shah, Ajay M., Akira, Shizuo, and Otsu, Kinya

Abstract

Supplemental Digital Content is available in the text.

Published

2020

5. Two-step evolution of HIV-1 budding system leading to pandemic in the human population

Author

Konno, Yoriyuki, Uriu, Keiya, Chikata, Takayuki, Takada, Toru, Kurita, Jun-ichi, Ueda, Mahoko Takahashi, Islam, Saiful, Yang Tan, Benjy Jek, Ito, Jumpei, Aso, Hirofumi, Kumata, Ryuichi, Williamson, Carolyn, Iwami, Shingo, Takiguchi, Masafumi, Nishimura, Yoshifumi, Morita, Eiji, Satou, Yorifumi, Nakagawa, So, Koyanagi, Yoshio, and Sato, Kei

Abstract

The pandemic HIV-1, HIV-1 group M, emerged from a single spillover event of its ancestral lentivirus from a chimpanzee. During human-to-human spread worldwide, HIV-1 diversified into multiple subtypes. Here, our interdisciplinary investigation mainly sheds light on the evolutionary scenario of the viral budding system of HIV-1 subtype C (HIV-1C), a most successfully spread subtype. Of the two amino acid motifs for HIV-1 budding, the P(T/S)AP and YPxL motifs, HIV-1C loses the YPxL motif. Our data imply that HIV-1C might lose this motif to evade immune pressure. Additionally, the P(T/S)AP motif is duplicated dependently of the level of HIV-1 spread in the human population, and >20% of HIV-1C harbored the duplicated P(T/S)AP motif. We further show that the duplication of the P(T/S)AP motif is caused by the expansion of the CTG triplet repeat. Altogether, our results suggest that HIV-1 has experienced a two-step evolution of the viral budding process during human-to-human spread worldwide.

Published

2024

6. AMPK regulates Bcl2-L-13-mediated mitophagy induction for cardioprotection

Author

Murakawa, Tomokazu, Ito, Jumpei, Rusu, Mara-Camelia, Taneike, Manabu, Omiya, Shigemiki, Moncayo-Arlandi, Javier, Nakanishi, Chiaki, Sugihara, Ryuta, Nishida, Hiroki, Mine, Kentaro, Fleck, Roland, Zhang, Min, Nishida, Kazuhiko, Shah, Ajay M., Yamaguchi, Osamu, Sakata, Yasushi, and Otsu, Kinya

Abstract

The accumulation of damaged mitochondria in the heart is associated with heart failure. Mitophagy is an autophagic degradation system that specifically targets damaged mitochondria. We previously reported that Bcl2-like protein 13 (Bcl2-L-13) mediates mitophagy and mitochondrial fission in mammalian cells. However, the in vivofunction of Bcl2-L-13 remains unclear. Here, we demonstrate that Bcl2-L-13-deficient mice and knock-in mice, in which the phosphorylation site (Ser272) on Bcl2-L-13 was changed to Ala, showed left ventricular dysfunction in response to pressure overload. Attenuation of mitochondrial fission and mitophagy led to impairment of ATP production in these mouse hearts. In addition, we identified AMPKα2 as the kinase responsible for the phosphorylation of Bcl2-L-13 at Ser272. These results indicate that Bcl2-L-13 and its phosphorylation play an important role in maintaining cardiac function. Furthermore, the amplitude of stress-stimulated mitophagic activity could be modulated by AMPKα2.

Published

2024

7. Epidemiologic survey of feline leukemia virus in domestic cats on Tsushima Island, Japan: management strategy for Tsushima leopard cats

Author

Makundi, Isaac, Koshida, Yushi, Kuse, Kyohei, Hiratsuka, Takahiro, Ito, Jumpei, Baba, Takuya, Watanabe, Shinya, Kawamura, Maki, Odahara, Yuka, Miyake, Ariko, Yamamoto, Hanae, Kuniyoshi, Sawako, Onuma, Manabu, and Nishigaki, Kazuo

Abstract

The Tsushima leopard cat (TLC) Prionailurus bengalensis euptilurus, a subspecies of P. bengalensis, is designated a National Natural Monument of Japan, and lives only on Tsushima Island, Nagasaki Prefecture, Japan. TLCs are threatened by various infectious diseases. Feline leukemia virus (FeLV) causes a serious infectious disease with a poor prognosis in cats. Therefore, the transmission of FeLV from Tsushima domestic cats (TDCs) to TLCs may threaten the TLC population. We investigated the FeLV infection status of both TDCs and TLCs on Tsushima Island by screening blood samples for FeLV p27 antigen and using PCR to amplify the full-length FeLV envgene. The prevalence of FeLV was 6.4% in TDCs and 0% in TLCs. We also demonstrated that the virus can replicate in the cells of TLCs, suggesting its potential cross-species transmission. The viruses in TDCs were classified as genotype I/clade 3, which is prevalent on a nearby island, based on previous studies of FeLV genotypes and FeLV epidemiology. The FeLV viruses identified on Tsushima Island can be further divided into 2 lineages within genotype I/clade 3, which are geographically separated in Kamijima and Shimojima, indicating that FeLV may have been transmitted to Tsushima Island at least twice. Monitoring FeLV infection in the TDC and TLC populations is highly recommended as part of the TLC surveillance and management strategy.

Published

2017

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

Author

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, MST, Shimizu, Ryo, Oda, Yoshitaka, and Suzuki, Rigel

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. [Display omitted] • BA.2.75 is more transmissible than BA.5 • Immunogenicity of BA.2.75 spike is different from that of BA.2 and BA.5 • Compared with BA.2, BA.2.75 exhibits higher affinity to ACE2 and greater fusogenicity • In infected hamsters, BA.2.75 exhibits greater pathogenicity than BA.2 Saito and G2P-Japan Consortium et al. elucidate the virological properties of the SARS-CoV-2 Omicron BA.2.75 variant. BA.2.75 is more transmissible than BA.5 and exhibits different antigenicity than BA.2 and BA.5. The BA.2.75 spike exhibits higher affinity to ACE2 and higher fusogenicity, and BA.2.75 is more pathogenic than BA.2 in hamsters. [ABSTRACT FROM AUTHOR]

Published

2022

9. Exciton Circular Dichroism in Channelrhodopsin.

Author

Pescitelli, Gennaro, Kato, Hideaki E., Oishi, Satomi, Ito, Jumpei, Maturana, Andrés Daniel, Nureki, Osamu, and Woody, Robert W.

Published

2014

10. Monitoring fusion kinetics of viral and target cell membranes in living cells using a SARS-CoV-2 spike-protein-mediated membrane fusion assay

Author

Nasser, Hesham, Shimizu, Ryo, Ito, Jumpei, Matsuno, Keita, Nao, Naganori, Sawa, Hirofumi, Kishimoto, Mai, Tanaka, Shinya, Tsuda, Masumi, Wang, Lei, Oda, Yoshikata, Kato, Marie, Ferdous, Zannatul, Mouri, Hiromi, Shishido, Kenji, Fukuhara, Takasuke, Tamura, Tomokazu, Suzuki, Rigel, Ito, Hayato, Yamasoba, Daichi, Kimura, Izumi, Misawa, Naoko, Uriu, Keiya, Kosugi, Yusuke, Fujita, Shigeru, Suganami, Mai, Chiba, Mika, Yoshimura, Ryo, Nakagawa, So, Wu, Jiaqi, Takaori-Kondo, Akifumi, Shirakawa, Kotaro, Nagata, Kayoko, Kazuma, Yasuhiro, Nomura, Ryosuke, Horisawa, Yoshihito, Tashiro, Yusuke, Kawai, Yugo, Irie, Takashi, Kawabata, Ryoko, Begum, MST Monira, Takahashi, Otowa, Ichihara, Kimiko, Ueno, Takamasa, Motozono, Chihiro, Toyoda, Mako, Tanaka, Yuri L., Butlertanaka, Erika P., Shofa, Maya, Takayama, Kazuo, Hashimoto, Rina, Deguchi, Sayaka, Hashiguchi, Takao, Suzuki, Tateki, Kimura, Kanako, Sasaki, Jiei, Nakajima, Yukari, Tabata, Kaori, Saito, Akatsuki, Sato, Kei, and Ikeda, Terumasa

Abstract

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) spike protein mediates membrane fusion between the virus and the target cells, triggering viral entry into the latter. Here, we describe a SARS-CoV-2 spike-protein-mediated membrane fusion assay using a dual functional split reporter protein to quantitatively monitor the fusion kinetics of the viral and target cell membranes in living cells. This approach can be applied in various cell types, potentially predicting the pathogenicity of newly emerging variants.

Published

2022

11. P‐3.21: Chromodot: Non‐electrical Color Changeable Pixel Dots for Board/Window Signage Display Using Light Control and Color Generating Technologies

Author

Sakamoto, Kunio, Matsukawa, Akira, and Ito, Jumpei

Published

2022

12. SARS-CoV-2 spike L452R variant evades cellular immunity and increases infectivity.

Author

Motozono, Chihiro, Toyoda, Mako, Zahradnik, Jiri, Saito, Akatsuki, Nasser, Hesham, Tan, Toong Seng, Ngare, Isaac, Kimura, Izumi, Uriu, Keiya, Kosugi, Yusuke, Yue, Yuan, Shimizu, Ryo, Ito, Jumpei, Torii, Shiho, Yonekawa, Akiko, Shimono, Nobuyuki, Nagasaki, Yoji, Minami, Rumi, Toya, Takashi, and Sekiya, Noritaka

Abstract

Many SARS-CoV-2 variants with naturally acquired mutations have emerged. These mutations can affect viral properties such as infectivity and immune resistance. Although the sensitivity of naturally occurring SARS-CoV-2 variants to humoral immunity has been investigated, sensitivity to human leukocyte antigen (HLA)-restricted cellular immunity remains largely unexplored. Here, we demonstrate that two recently emerging mutations in the receptor-binding domain of the SARS-CoV-2 spike protein, L452R (in B.1.427/429 and B.1.617) and Y453F (in B.1.1.298), confer escape from HLA-A24-restricted cellular immunity. These mutations reinforce affinity toward the host entry receptor ACE2. Notably, the L452R mutation increases spike stability, viral infectivity, viral fusogenicity, and thereby promotes viral replication. These data suggest that HLA-restricted cellular immunity potentially affects the evolution of viral phenotypes and that a further threat of the SARS-CoV-2 pandemic is escape from cellular immunity. [Display omitted] • L452R and Y453F mutations in the SARS-CoV-2 spike RBM have emerged • L452R and Y453F mutants escape HLA-A24-restricted cellular immunity • L452R increases viral infectivity and fusogenicity and promotes viral replication Motozono and G2P-Japan Consortium et al. show that the emerging mutations L452R and Y453F in the SARS-CoV-2 spike receptor-binding motif evade HLA-A24-restricted cellular immunity. L452R increases spike stability, viral infectivity, and viral fusogenicity, thereby promoting viral replication. These data suggest that HLA-restricted cellular immunity potentially affects evolution of viral phenotypes. [ABSTRACT FROM AUTHOR]

Published

2021

13. NF-κB activation in cardiac fibroblasts results in the recruitment of inflammatory Ly6Chimonocytes in pressure-overloaded hearts

Author

Abe, Hajime, Tanada, Yohei, Omiya, Shigemiki, Podaru, Mihai-Nicolae, Murakawa, Tomokazu, Ito, Jumpei, Shah, Ajay M., Conway, Simon J., Ono, Masahiro, and Otsu, Kinya

Abstract

Description

Published

2021

14. An additional NF-κB site allows HIV-1 subtype C to evade restriction by nuclear PYHIN proteins

Author

Bosso, Matteo, Stürzel, Christina M., Kmiec, Dorota, Badarinarayan, Smitha Srinivasachar, Braun, Elisabeth, Ito, Jumpei, Sato, Kei, Hahn, Beatrice H., Sparrer, Konstantin M.J., Sauter, Daniel, and Kirchhoff, Frank

Abstract

Subtype C is the most prevalent clade of human immunodeficiency virus type 1 (HIV-1) worldwide. The reasons for this are poorly understood. Here, we demonstrate that a characteristic additional third nuclear factor κB (NF-κB) binding site in the long terminal repeat (LTR) promoter allows subtype C HIV-1 strains to evade restriction by nuclear PYHIN proteins, which sequester the transcription factor Sp1. Further, other LTR alterations are responsible for rare PYHIN resistance of subtype B viruses. Resistance-conferring mutations generally reduce the dependency of HIV-1 on Sp1 for virus production and render LTR transcription highly responsive to stimulation by NF-κB/p65. A third NF-κB binding site increases infectious virus yield in primary CD4+T cells in an γ-interferon-inducible protein 16 (IFI16)-dependent manner. Comprehensive sequence analyses suggest that the frequency of circulating PYHIN-resistant HIV-1 strains is increasing. Our finding that an additional NF-κB binding site in the LTR confers resistance to nuclear PYHIN proteins helps to explain the dominance of clade C HIV-1 strains.

Published

2021

15. Multiomics Investigation Revealing the Characteristics of HIV-1-Infected Cells In Vivo

Author

Aso, Hirofumi, Nagaoka, Shumpei, Kawakami, Eiryo, Ito, Jumpei, Islam, Saiful, Tan, Benjy Jek Yang, Nakaoka, Shinji, Ashizaki, Koichi, Shiroguchi, Katsuyuki, Suzuki, Yutaka, Satou, Yorifumi, Koyanagi, Yoshio, and Sato, Kei

Abstract

For eradication of HIV-1 infection, it is important to elucidate the detailed features and heterogeneity of HIV-1-infected cells in vivo. To reveal multiple characteristics of HIV-1-producing cells in vivo, we use a hematopoietic-stem-cell-transplanted humanized mouse model infected with GFP-encoding replication-competent HIV-1. We perform multiomics experiments using recently developed technology to identify the features of HIV-1-infected cells. Genome-wide HIV-1 integration-site analysis reveals that productive HIV-1 infection tends to occur in cells with viral integration into transcriptionally active genomic regions. Bulk transcriptome analysis reveals that a high level of viral mRNA is transcribed in HIV-1-infected cells. Moreover, single-cell transcriptome analysis shows the heterogeneity of HIV-1-infected cells, including CXCL13highcells and a subpopulation with low expression of interferon-stimulated genes, which can contribute to efficient viral spread in vivo. Our findings describe multiple characteristics of HIV-1-producing cells in vivo, which could provide clues for the development of an HIV-1 cure.

Published

2020

16. The Nature of the HTLV-1 Provirus in Naturally Infected Individuals Analyzed by the Viral DNA-Capture-Seq Approach

Author

Katsuya, Hiroo, Islam, Saiful, Tan, Benjy Jek Yang, Ito, Jumpei, Miyazato, Paola, Matsuo, Misaki, Inada, Yuki, Iwase, Saori C., Uchiyama, Yoshikazu, Hata, Hiroyuki, Sato, Tomoo, Yagishita, Naoko, Araya, Natsumi, Ueno, Takaharu, Nosaka, Kisato, Tokunaga, Masahito, Yamagishi, Makoto, Watanabe, Toshiki, Uchimaru, Kaoru, Fujisawa, Jun-ichi, Utsunomiya, Atae, Yamano, Yoshihisa, and Satou, Yorifumi

Abstract

The retrovirus human T-cell leukemia virus type 1 (HTLV-1) integrates into the host DNA, achieves persistent infection, and induces human diseases. Here, we demonstrate that viral DNA-capture sequencing (DNA-capture-seq) is useful to characterize HTLV-1 proviruses in naturally virus-infected individuals, providing comprehensive information about the proviral structure and the viral integration site. We analyzed peripheral blood from 98 naturally HTLV-1-infected individuals and found that defective proviruses were present not only in patients with leukemia, but also in those with other clinical entities. We further demonstrated that clones with defective-type proviruses exhibited a higher degree of clonal abundance than those with full-length proviruses. The frequency of defective-type proviruses in HTLV-1-infected humanized mice was lower than that in infected individuals, indicating that defective proviruses were rare at the initial phase of infection but preferentially selected during persistent infection. These results demonstrate the robustness of viral DNA-capture-seq for HTLV-1 infection and suggest potential applications for other virus-associated cancers in humans.

Published

2019