DExD-box RNA helicases in human viral infections: Pro- and anti-viral functions

Abstract

Viruses have co-evolved with their hosts, intertwining their life cycles. As a result, components and pathways from a host cell's processes are appropriated for virus infection. This review examines the host DExD-box RNA helicases known to influence virus infection during human infections. We have identified 42 species of viruses (28 genera and 21 families) whose life cycles are modulated by at least one, but often multiple, DExD-box RNA helicases. Of these, 37 species require one or multiple DExD-box RNA helicases for efficient infections, i.e., in these cases the DExD-box RNA helicases are pro-viral. However, similar evolutionary processes have also led to cellular responses that combat viral infections. In humans, these responses comprise intrinsic and innate immune responses initiated and regulated by some of the same DExD-box RNA helicases that act as pro-viral helicases. Currently, anti-viral DExD-box RNA helicase responses to viral infections are noted in 23 viral species. Notably, most studied viruses are linked to severe, life-threatening diseases, leading many researchers to focus on DExD-box RNA helicases as potential therapeutic targets. Thus, we present examples of host-directed therapies targeting anti-viral DExD-box RNA helicases. Overall, our findings indicate that various DExD-box RNA helicases serve as either pro- and/or anti-viral agents across a wide range of viruses. Continued investigation into the pro-viral activities of these helicases will help identify specific protein motifs that can be targeted by drugs to manage or eliminate the severe diseases caused by these viruses. Comparative studies on anti-viral DExD-box RNA helicase responses may also offer insights for developing therapies that enhance immune responses triggered by these helicases.

Keywords: 5′-terminal cap; DDX; Innate immunity; Intrinsic immunity; Polyadenylation; Virus.