Department of Cellular and Molecular Virology,
National Research Center for the Control and Prevention of Infectious Diseases,
Nagasaki University

Publications (from 2017)

  1. Isono M, Furuyama W, Kuroda M, Kondoh T, Igarashi M, Kajihara M, Yoshida R, Manzoor R, Okuya K, Miyamoto H, Feldmann H, Marzi A, Sakaitani M, Nanbo A, Takada A, A biaryl sulfonamide derivative as a novel inhibitor of filovirus infection, Antivir Res, 183:104932, 2020.
  2. Zhao M, Nanbo A, Becnel D, Qin Z, Morris G, Li L, Lin Z, Ubiquitin Modification of the Epstein-Barr Virus Immediate Early Transactivator Zta, J Virol, 94(22):e01298-20, 2020
  3. Furuyama W, Nanbo A, Maruyama J, Marzi A, Takada A, A complement component C1q-mediated mechanism of antibody-dependent enhancement of Ebola virus infection, PLoS Negl Trop Dis, 14(9):e0008602, 2020
  4. Nanbo A, Epstein-Barr Virus Exploits the Secretory Pathway to Release Virions, Microorganisms. 8(5):729, 2020
  5. Kheir F, Zhao M, Strong MJ, Yu Y, Nanbo A, Flemington EK, Morris GF, Reiss K, Li L, Lin Z. Detection of Epstein-Barr Virus Infection in Non-Small Cell Lung Cancer. Cancers 1. pii: E759, 2019
  6. Fujioka Y, Satoh AO, Horiuchi K, Fujioka M, Tsutsumi K, Sasaki J, Nepal P, Kashiwagi S, Paudel S, Nishide S, Nanbo A, Sasaki T, Ohba Y. A Peptide Derived from Phosphoinositide 3-kinase Inhibits Endocytosis and Influenza Virus Infection. Cell Struct Funct, 44:61-74, 2019
  7. Nanbo A, Ohba Y. Budding of Ebola virus particles requires the Rab11-dependent endocytic recycling pathway. J Infect Dis, 218. suppl_5 S388 S396, 2018
  8. Nanbo A, Katano H, Kataoka M, Hoshina S, Sekizuka T, Kuroda M, Ohba Y. Infection of Epstein–Barr Virus in Type III Latency Modulates Biogenesis of Exosomes and the Expression Profile of Exosomal miRNAs in the Burkitt Lymphoma Mutu Cell Lines. Cancers, 10(7). pii: E237, 2018
  9. Fujioka Y, Nishide S, Ose T, Kato U, Fukuhara H, Fujioka M, Horiuchi K, Satoh AO, Nepal P, Kashiwagi S,Wang J, Horiguchi M, Paudel S, Nanbo A, Miyazaki T, Maenaka K, Ohba Y, Influenza A Virus Entry into Mammalian Cells Requires A Voltage-Dependent Ca2+ Channel. Cell Host Microbe, 23(6): 809-818.e5, 2018
  10. Nanbo A, Ohashi M, Yoshiyama H, Ohba Y, The role of tumor growth factor β in cell-to-cell contact-mediated Epstein-Barr virus transmission. Front Microbio, 9, 984, 2018
  11. Nanbo A, Noda T, Ohba Y, Epstein–Barr Virus Acquires Its Final Envelope on Intracellular Compartments With Golgi Markers, Front Microbiol, 9, 454, 2018
  12. Nanbo A, Maruyama J, Imai M, Ujie M, Fujioka Y, Nishide S, Takada A, Ohba Y, Kawaoka Y, Ebola virus requires a host scramblase for externalization of phosphatidylserine on the surface of viral particles, PLoS Pathog, 14(1):e1006848. 2018
  13. Kuroda M, Fujikura D, Nanbo A, Marzi A, Noyori O, Kajihara M, Maruyama J, Matsuno K, Miyamoto H, Yoshida R, Feldmann H, Takada A. The Interaction between TIM-1 and NPC1 Is Important for the Cellular Entry of Ebola Virus. J Virol, 89, 6481-6493, 2015

Reviews

  1. Becnel D, Abdelghani R, Nanbo A, Avilala J, Kahn J, Li L, Lin, Z, Pathogenic Role of Epstein-Barr Virus in Lung Cancers, Viruses. 13(5):877. 2021.
  2. Nanbo A, Furuyama W, Lin Z. RNA Virus-Encoded miRNAs: Current Insights and Future Challenges.Front Microbiol. 24 (12):679210. 2021
  3. Avilala J, Becnel D, Abdelghani R, Nanbo A, Kahn J, Li L, Lin Z. Role of Virally Encoded Circular RNAs in the Pathogenicity of Human Oncogenic Viruses. Front Microbiol. 12:657036. 2021.
  4. Nanbo A. Molecular Mechanism of Externalization of Phosphatidylserine on the Surface of Ebola Virus Particles, Journal of the Society of Japanese Women Scientists, 20(1), 1-8, 2020
  5. Nanbo A, Kawaoka Y. Molecular Mechanism of Externalization of Phosphatidylserine on the Surface of Ebola Virus Particles. DNA Cell Biol. 38(2), 115-120, 2019
  6. Zhao M, Nanbo A, Sun L, Lin Z, Extracellular Vesicles in Epstein-Barr Virus' Life Cycle and Pathogenesis. Microorganisms. 7(2). pii: E48, 2019
  7. Kolesnikova L, Nanbo A, Kawaoka Y, Becker S, Inside the Cell. Curr Top Microbiol Immunol. 411:353-380, 2017