Open AccessRIG-I and dsRNA-Induced IFNβ Activation
Author(s) -
Stéphane Hausmann,
JeanBaptiste Marq,
Caroline Tapparel,
Daniel Kolakofsky,
Dominique Garcin
Publication year - 2008
Publication title -
plos one
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.99
H-Index - 332
ISSN - 1932-6203
DOI - 10.1371/journal.pone.0003965
Subject(s) - rig i , rna silencing , rna , innate immune system , biology , interferon , helicase , rna helicase a , mda5 , virology , primer (cosmetics) , in vitro , microbiology and biotechnology , picornavirus , immune system , chemistry , rna interference , biochemistry , gene , genetics , organic chemistry
Except for viruses that initiate RNA synthesis with a protein primer (e.g., picornaviruses), most RNA viruses initiate RNA synthesis with an NTP, and at least some of their viral ppp RNAs remain unblocked during the infection. Consistent with this, most viruses require RIG-I to mount an innate immune response, whereas picornaviruses require mda-5. We have examined a SeV infection whose ability to induce interferon depends on the generation of capped dsRNA (without free 5′ tri-phosphate ends), and found that this infection as well requires RIG-I and not mda-5. We also provide evidence that RIG-I interacts with poly-I/C in vivo , and that heteropolymeric dsRNA and poly-I/C interact directly with RIG-I in vitro , but in different ways; i.e., poly-I/C has the unique ability to stimulate the helicase ATPase of RIG-I variants which lack the C-terminal regulatory domain.
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