Structure and function of the protein kinase R.

The protein kinase R (PKR) is an intracellular sensor of stress, exemplified by viral infection. Double-stranded (ds) RNA produced during viral replication activates PKR, which in turn arrests protein synthesis by phosphorylating the alpha subunit of the translation initiation factor eIF2. As well as dsRNA, two additional ligands, PACT and heparin, directly activate the kinase. These mediate the response of PKR to additional indirect stimuli, including bacterial lipopolysaccharides, ceramide and polyanionic molecules. This responsiveness to multiple stimuli advocates a broader role for PKR as a signalling molecule for diverse physiological stresses. Appropriately, a number of other protein substrates have been reported for PKR. These substrates support additional roles for PKR in the regulation of transcription and signal transduction in infected cells, as well as uninfected but diseased tissues, such as in tumorigenesis and neurodegenerative diseases. Finally, PKR plays a role in normal cell differentiation in platelet-derived growth factor signalling and in osteoblast-mediated calcification.

RNA interference and double-stranded-RNA-activated pathways.

RNAi (RNA interference) has become a powerful tool to determine gene function. Different methods of expressing the short ds (double-stranded) RNA intermediates required for interference in mammalian systems have been developed, including the introduction of si (short interfering) RNAs by direct transfection or driven from transfected plasmids or lentiviral vectors encoding sh (short hairpin) RNAs. Although RNAi relies upon a high degree of specificity, recent findings suggest that off-target non-specific effects can be encountered. We found that transfection of siRNAs can results in an interferon-mediated activation of the JAK/STAT (Janus kinase/signal transducer and activator of transcription) pathway and global up-regulation of interferon-stimulated genes. This effect is mediated in part by the dsRNA-dependent protein kinase PKR, as this kinase is activated by the 21 bp siRNA, and is required in response to the siRNAs. However, the transcription factor IRF3 (interferon-regulatory factor 3) is also activated by siRNA as a primary response, resulting in the stimulation of genes independent of an interferon response. In cells deficient in IRF3, this response is blunted, but can be restored by re-introduction of IRF3. Thus siRNAs induce complex signalling responses in target cells, leading to effects beyond the selective silencing of specific genes.