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2 0 0 0 OA Interaction between TIM-1 and NPC1 Is Important for Cellular Entry of Ebola Virus

著者
Kuroda Makoto Fujikura Daisuke Nanbo Asuka Marzi Andrea Noyori Osamu Kajihara Masahiro Maruyama Junki Matsuno Keita Miyamoto Hiroko Yoshida Reiko Feldmann Heinz Takada Ayato
出版者
American Society for Microbiology
雑誌
Journal of virology (ISSN:0022538X)
巻号頁・発行日
vol.89, no.12, pp.6481-6493, 2015-06
被引用文献数
64
Multiple host molecules are known to be involved in the cellular entry of filoviruses, including Ebola virus (EBOV); T-cell immunoglobulin and mucin domain 1 (TIM-1) and Niemann-Pick C1 (NPC1) have been identified as attachment and fusion receptors, respectively. However, the molecular mechanisms underlying the entry process have not been fully understood. We found that TIM-1 and NPC1 colocalized and interacted in the intracellular vesicles where EBOV glycoprotein (GP)-mediated membrane fusion occurred. Interestingly, a TIM-1-specific monoclonal antibody (MAb), M224/1, prevented GP-mediated membrane fusion and also interfered with the binding of TIM-1 to NPC1, suggesting that the interaction between TIM-1 and NPC1 is important for filovirus membrane fusion. Moreover, MAb M224/1 efficiently inhibited the cellular entry of viruses from all known filovirus species. These data suggest a novel mechanism underlying filovirus membrane fusion and provide a potential cellular target for antiviral compounds that can be universally used against filovirus infections.

1 0 0 0 OA Replication-Uncoupled Histone Deposition during Adenovirus DNA Replication

著者
Komatsu Tetsuro Nagata Kyosuke
出版者
American Society for Microbiology
雑誌
Journal of virology (ISSN:0022538X)
巻号頁・発行日
vol.86, no.12, pp.6701-6711, 2012-06
被引用文献数
34 4
In infected cells, the chromatin structure of the adenovirus genome DNA plays critical roles in its genome functions. Previously, we reported that in early phases of infection, incoming viral DNA is associated with both viral core protein VII and cellular histones. Here we show that in late phases of infection, newly synthesized viral DNA is also associated with histones. We also found that the knockdown of CAF-1, a histone chaperone that functions in the replication-coupled deposition of histones, does not affect the level of histone H3 bound on viral chromatin, although CAF-1 is accumulated at viral DNA replication foci together with PCNA. Chromatin immunoprecipitation assays using epitope-tagged histone H3 demonstrated that histone variant H3.3, which is deposited onto the cellular genome in a replication-independent manner, is selectively associated with both incoming and newly synthesized viral DNAs. Microscopic analyses indicated that histones but not USF1, a transcription factor that regulates viral late gene expression, are excluded from viral DNA replication foci and that this is achieved by the oligomerization of the DNA binding protein (DBP). Taken together, these results suggest that histone deposition onto newly synthesized viral DNA is most likely uncoupled with viral DNA replication, and a possible role of DBP oligomerization in this replication-uncoupled histone deposition is discussed.