5'-triphosphate-dependent activation of PKR by RNAs with short stem-loops
SR Nallagatla, J Hwang, R Toroney, X Zheng… - science, 2007 - science.org
science, 2007•science.org
Molecular patterns in pathogenic RNAs can be recognized by the innate immune system,
and a component of this response is the interferon-induced enzyme RNA-activated protein
kinase (PKR). The major activators of PKR have been proposed to be long double-stranded
RNAs. We report that RNAs with very limited secondary structures activate PKR in a 5′-
triphosphate–dependent fashion in vitro and in vivo. Activation of PKR by 5′-triphosphate
RNA is independent of RIG-I and is enhanced by treatment with type 1 interferon (IFN-α) …
and a component of this response is the interferon-induced enzyme RNA-activated protein
kinase (PKR). The major activators of PKR have been proposed to be long double-stranded
RNAs. We report that RNAs with very limited secondary structures activate PKR in a 5′-
triphosphate–dependent fashion in vitro and in vivo. Activation of PKR by 5′-triphosphate
RNA is independent of RIG-I and is enhanced by treatment with type 1 interferon (IFN-α) …
Molecular patterns in pathogenic RNAs can be recognized by the innate immune system, and a component of this response is the interferon-induced enzyme RNA-activated protein kinase (PKR). The major activators of PKR have been proposed to be long double-stranded RNAs. We report that RNAs with very limited secondary structures activate PKR in a 5′-triphosphate–dependent fashion in vitro and in vivo. Activation of PKR by 5′-triphosphate RNA is independent of RIG-I and is enhanced by treatment with type 1 interferon (IFN-α). Surveillance of molecular features at the 5′ end of transcripts by PKR presents a means of allowing pathogenic RNA to be distinguished from self-RNA. The evidence presented here suggests that this form of RNA-based discrimination may be a critical step in mounting an early immune response.
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