Characterization of SLA RNA promoter from dengue virus and its interaction with the viral non-structural NS5 protein

The Dengue virus (DENV) is the most significant arthropod-borne viral pathogen in humans with 400 million infections annually. DENV comprises four distinct serotypes (DENV-1 to -4) which complicates vaccine development. Any of the four serotypes can cause clinical illness but with distinctive infect...

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Veröffentlicht in:Biochimie 2024-07, Vol.222, p.87-100
Hauptverfasser: Brillet, Karl, Janczuk-Richter, Marta, Poon, Amanda, Laukart-Bradley, Joanne, Ennifar, Eric, Lebars, Isabelle
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Sprache:eng
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Zusammenfassung:The Dengue virus (DENV) is the most significant arthropod-borne viral pathogen in humans with 400 million infections annually. DENV comprises four distinct serotypes (DENV-1 to -4) which complicates vaccine development. Any of the four serotypes can cause clinical illness but with distinctive infection dynamics. Variations in sequences identified within the four genomes induce structural differences in crucial RNA motifs that were suggested to be correlated to the degree of pathogenicity among DENV-1 to -4. In particular, the RNA Stem-loop A (SLA) at the 5′-end of the genome, acts as a key regulator of the viral replication cycle by interacting with the viral NS5 polymerase to initiate the minus-strand viral RNA synthesis and later to methylate and cap the synthesized RNA. The molecular details of this interaction remain not fully described. Here, we report the solution secondary structures of SLA from DENV-1 to -4. Our results highlight that the four SLA exhibit structural and dynamic differences. Secondly, to determine whether SLA RNA contains serotype-specific determinants for the recognition by the viral NS5 protein, we investigated interactions between SLA from DENV -1 to -4 and DENV2 NS5 using combined biophysical approaches. Our results show that NS5 from DENV2 is able to bind SLA from other serotypes, but that other viral or host factors may be necessary to stabilize the complex and promote the catalytically active state of the NS5. By contrast, we show that a serotype-specific binding is driven by specific interactions involving conformational changes within the SLA RNA. •SLA RNA from DENV-1 to -4 exhibit structural and dynamics differences.•First NMR description of viral NS5 polymerase binding to SLA RNA.•Binding of NS5 to serotype-specific SLA induces structural rearrangement.•Binding of NS5 to a non-serotype-specific SLA occurs through different mechanisms.
ISSN:0300-9084
1638-6183
1638-6183
DOI:10.1016/j.biochi.2024.02.005