Petra Kukkaro scite author profile

Dengue virus (DENV) infects ~400 million people annually. There is no licensed vaccine or therapeutic drug. Only a small fraction of the total DENV-specific antibodies in a naturally occurring dengue infection consists of highly neutralizing antibodies. Here we show that the DENV-specific human monoclonal antibody 5J7 is exceptionally potent, neutralizing 50% of virus at nanogram-range antibody concentration. The 9 Å resolution cryo-electron microscopy structure of the Fab 5J7–DENV complex shows that a single Fab molecule binds across three envelope proteins and engages three functionally important domains, each from a different envelope protein. These domains are critical for receptor binding and fusion to the endosomal membrane. The ability to bind to multiple domains allows the antibody to fully coat the virus surface with only 60 copies of Fab, that is, half the amount compared with other potent antibodies. Our study reveals a highly efficient and unusual mechanism of molecular recognition by an antibody.

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2′-O Methylation of Internal Adenosine by Flavivirus NS5 Methyltransferase

Dong

et al. 2012

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RNA modification plays an important role in modulating host-pathogen interaction. Flavivirus NS5 protein encodes N-7 and 2′- O methyltransferase activities that are required for the formation of 5′ type I cap (m 7 GpppAm) of viral RNA genome. Here we reported, for the first time, that flavivirus NS5 has a novel internal RNA methylation activity. Recombinant NS5 proteins of West Nile virus and Dengue virus (serotype 4; DENV-4) specifically methylates polyA, but not polyG, polyC, or polyU, indicating that the methylation occurs at adenosine residue. RNAs with internal adenosines substituted with 2′- O -methyladenosines are not active substrates for internal methylation, whereas RNAs with adenosines substituted with N 6 -methyladenosines can be efficiently methylated, suggesting that the internal methylation occurs at the 2′-OH position of adenosine. Mass spectroscopic analysis further demonstrated that the internal methylation product is 2′- O -methyladenosine. Importantly, genomic RNA purified from DENV virion contains 2′- O -methyladenosine. The 2′- O methylation of internal adenosine does not require specific RNA sequence since recombinant methyltransferase of DENV-4 can efficiently methylate RNAs spanning different regions of viral genome, host ribosomal RNAs, and polyA. Structure-based mutagenesis results indicate that K61-D146-K181-E217 tetrad of DENV-4 methyltransferase forms the active site of internal methylation activity; in addition, distinct residues within the methyl donor ( S -adenosyl-L-methionine) pocket, GTP pocket, and RNA-binding site are critical for the internal methylation activity. Functional analysis using flavivirus replicon and genome-length RNAs showed that internal methylation attenuated viral RNA translation and replication. Polymerase assay revealed that internal 2′- O -methyladenosine reduces the efficiency of RNA elongation. Collectively, our results demonstrate that flavivirus NS5 performs 2′- O methylation of internal adenosine of viral RNA in vivo and host ribosomal RNAs in vitro .

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SH1: A novel, spherical halovirus isolated from an Australian hypersaline lake

et al. 2005

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A novel halovirus, SH1, with a spherical morphology is described. Isolated from a hypersaline lake, SH1 is divalent, producing clear plaques on Haloarcula hispanica and a natural Halorubrum isolate. Single-step growth curves gave a latent period of 5-6 h and a burst size of around 200 PFU/cell. The host can differentiate to form tight clusters of thick cell-walled forms, and these were shown to be resistant to infection. Purified virions had no visible tail, were about 70 nm in diameter, and displayed a fragile outer capsid layer, possibly with an underlying membrane component. The structural proteins of the virion were analyzed by SDS-PAGE and several were found to be cross-linked, forming protein complexes. The genome was linear, dsDNA, of approximately 30 kb in length. This morphology and linear genome are features not observed in any other euryarchaeal viruses, but have properties similar to the bacterial virus PRD1.

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New, Closely Related Haloarchaeal Viral Elements with Different Nucleic Acid Types

Roine

Kukkaro

Paulín

et al. 2010

J Virol

132

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Constituents of SH1, a Novel Lipid-Containing Virus Infecting the Halophilic Euryarchaeon Haloarcula hispanica

Bamford

Ravantti²,

Rönnholm

et al. 2005

J Virol

129

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Recent studies have indicated that a number of bacterial and eukaryotic viruses that share a common architectural principle are related, leading to the proposal of an early common ancestor. A prediction of this model would be the discovery of similar viruses that infect archaeal hosts. Our main interest lies in icosahedral double-stranded DNA (dsDNA) viruses with an internal membrane, and we now extend our studies to include viruses infecting archaeal hosts. While the number of sequenced archaeal viruses is increasing, very little sequence similarity has been detected between bacterial and eukaryotic viruses. In this investigation we rigorously show that SH1, an icosahedral dsDNA virus infecting Haloarcula hispanica, possesses lipid structural components that are selectively acquired from the host pool. We also determined the sequence of the 31-kb SH1 genome and positively identified genes for 11 structural proteins, with putative identification of three additional proteins. The SH1 genome is unique and, except for a few open reading frames, shows no detectable similarity to other published sequences, but the overall structure of the SH1 virion and its linear genome with inverted terminal repeats is reminiscent of lipid-containing dsDNA bacteriophages like PRD1.

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Virus–host interactions in environments with a wide range of ionic strengths

Kukkaro

Bamford²

2009

Environ Microbiol Rep

105

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Although high-salt environments are rich in viruses, virus-host interactions have not been much explored. Here we study the virus-host interactions occurring in a variety of salt environments, up to saturated salinity. We chose viruses from different environments with diverse morphologies that included both bacterial and archaeal viruses. To extend the test virus set five new haloviruses were isolated and initially characterized in this study. We observed adsorption rates that varied over four orders of magnitude among the virus-host cell systems used in this study. Changes in ionic strength affected the adsorption of these viruses to their host cells in a variety of ways. All the studied viruses, regardless from which environment they were isolated, were more resistant to variations in ionic strength conditions than their host cells. Our study provides a glimpse of the early events in virus life cycles for a number of viruses from different environments. We also gained information on viral responses to changing environments, a valuable piece of information in extending our understanding of the viruses in the environment.

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Release of Dengue Virus Genome Induced by a Peptide Inhibitor

et al. 2012

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Dengue virus infects approximately 100 million people annually, but there is no available therapeutic treatment. The mimetic peptide, DN59, consists of residues corresponding to the membrane interacting, amphipathic stem region of the dengue virus envelope (E) glycoprotein. This peptide is inhibitory to all four serotypes of dengue virus, as well as other flaviviruses. Cryo-electron microscopy image reconstruction of dengue virus particles incubated with DN59 showed that the virus particles were largely empty, concurrent with the formation of holes at the five-fold vertices. The release of RNA from the viral particle following incubation with DN59 was confirmed by increased sensitivity of the RNA genome to exogenous RNase and separation of the genome from the E protein in a tartrate density gradient. DN59 interacted strongly with synthetic lipid vesicles and caused membrane disruptions, but was found to be non-toxic to mammalian and insect cells. Thus DN59 inhibits flavivirus infectivity by interacting directly with virus particles resulting in release of the genomic RNA.

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Petra Kukkaro

The Structural Basis for Serotype-Specific Neutralization of Dengue Virus by a Human Antibody

A highly potent human antibody neutralizes dengue virus serotype 3 by binding across three surface proteins

2′-O Methylation of Internal Adenosine by Flavivirus NS5 Methyltransferase

SH1: A novel, spherical halovirus isolated from an Australian hypersaline lake

New, Closely Related Haloarchaeal Viral Elements with Different Nucleic Acid Types

Constituents of SH1, a Novel Lipid-Containing Virus Infecting the Halophilic Euryarchaeon Haloarcula hispanica

Virus–host interactions in environments with a wide range of ionic strengths

Release of Dengue Virus Genome Induced by a Peptide Inhibitor

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