| Literature DB >> 31076555 |
Usama Ashraf1,2,3, Laura Tengo4, Laurent Le Corre5, Guillaume Fournier1,2,3, Patricia Busca5, Andrew A McCarthy6, Marie-Anne Rameix-Welti7,8, Christine Gravier-Pelletier5, Rob W H Ruigrok4, Yves Jacob1,2,3, Pierre-Olivier Vidalain9, Nicolas Pietrancosta10, Thibaut Crépin11, Nadia Naffakh12,2,3.
Abstract
New therapeutic strategies targeting influenza are actively sought due to limitations in current drugs available. Host-directed therapy is an emerging concept to target host functions involved in pathogen life cycles and/or pathogenesis, rather than pathogen components themselves. From this perspective, we focused on an essential host partner of influenza viruses, the RED-SMU1 splicing complex. Here, we identified two synthetic molecules targeting an α-helix/groove interface essential for RED-SMU1 complex assembly. We solved the structure of the SMU1 N-terminal domain in complex with RED or bound to one of the molecules identified to disrupt this complex. We show that these compounds inhibiting RED-SMU1 interaction also decrease endogenous RED-SMU1 levels and inhibit viral mRNA splicing and viral multiplication, while preserving cell viability. Overall, our data demonstrate the potential of RED-SMU1 destabilizing molecules as an antiviral therapy that could be active against a wide range of influenza viruses and be less prone to drug resistance.Entities:
Keywords: RED-SMU1 splicing complex; host-directed antivirals; influenza virus; splicing; structure-based drug screening
Mesh:
Substances:
Year: 2019 PMID: 31076555 PMCID: PMC6561211 DOI: 10.1073/pnas.1901214116
Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN: 0027-8424 Impact factor: 11.205