The transient activation of the cellular stress kinase, protein kinase RNA-activated (PKR), by double-helical RNA, especially by viral double-stranded RNA generated during replication, results in the inhibition of translation via the phosphorylation of eukaryotic initiation factor 2 α-chain (eIF2α). Exceptionally, short intragenic elements within primary transcripts of the human tumor necrosis factor (TNF-α) and globin genes, genes essential for survival, can form RNA structures that strongly activate PKR and thereby render the splicing of their mRNAs highly efficient. These intragenic RNA activators of PKR promote early spliceosome assembly and splicing by inducing phosphorylation of nuclear eIF2α, without impairing the translation of the mature spliced mRNA. Unexpectedly, excision of the large human immunodeficiency virus (HIV) rev/tat intron was shown to require activation of PKR by the viral RNA and eIF2α phosphorylation. The splicing of rev/tat mRNA is abrogated by viral antagonists of PKR and by trans-dominant negative mutant PKR, yet enhanced by the overexpression of PKR. The TNFα and HIV RNA activators of PKR fold into compact pseudoknots that are highly conserved within the phylogeny, supporting their essential role in the upregulation of splicing. HIV provides the first example of a virus co-opting a major cellular antiviral mechanism, the activation of PKR by its RNA, to promote splicing.
Keywords: HIV; TNF; intracellular stress response; intragenic RNA elements; mRNA splicing; stress kinase PKR; viral mRNA splicing.