PKR activation by noncanonical ligands: a 5'-triphosphate requirement versus antisense contamination.

ABSTRACT

Protein kinase RNA-activated (PKR) is an interferon-inducible kinase that is potently activated by long double-stranded RNA (dsRNA). In a previous study, we found that snoRNAs exhibit increased association with PKR in response to metabolic stress. While it was unclear if snoRNAs also activated PKR in cells, activation in vitro was observed. snoRNAs do not exhibit the double-stranded character typically required for activation of PKR, but some studies suggest such RNAs can activate PKR if triphosphorylated at the 5' terminus, or if they are able to form intermolecular dimers. To interrogate the mechanism of PKR activation by snoRNAs in vitro we focused on SNORD113. Using multiple methods for defining the 5'-phosphorylation state, we find that activation of PKR by SNORD113 does not require a 5'-triphosphate. Gel purification from a native gel followed by analysis using analytical ultracentrifugation showed that dimerization was also not responsible for activation. We isolated distinct conformers of SNORD113 from a native polyacrylamide gel and tracked the activating species to dsRNA formed from antisense RNA synthesized during in vitro transcription with T7 RNA polymerase. Similar studies with additional snoRNAs and small RNAs showed the generality of our results. Our studies suggest that a 5' triphosphate is not an activating ligand for PKR, and emphasize the insidious nature of antisense contamination.