RESUMO
In a recent article in Cell, Zhou et al. investigate the origins, composition, and biological consequences of UV-induced stress granules. They find that UV-induced stress granules are triggered by the formation of RNA-protein crosslinks, uniquely contain DHX9 as a marker, form during mitosis independently of translation repression, and are enriched in intron-containing RNAs and splicing factors. Moreover, UV-induced granules contain double-stranded RNA (dsRNA) and trigger a dsRNA response. This work identifies a mechanism for resolving UV-damaged RNA and broadens the types of cytosolic "stress granules" that form.
Assuntos
Grânulos de Estresse , Mitose , RNA de Cadeia Dupla/genética , RNA de Cadeia Dupla/metabolismoRESUMO
Mammalian cells respond to dsRNA in multiple manners. One key response to dsRNA is the activation of PKR, an eIF2α kinase, which triggers translational arrest and the formation of stress granules. However, the process of PKR activation in cells is not fully understood. In response to increased endogenous or exogenous dsRNA, we observed that PKR forms novel cytosolic condensates, referred to as dsRNA-induced foci (dRIFs). dRIFs contain dsRNA, form in proportion to dsRNA, and are enhanced by longer dsRNAs. dRIFs enrich several other dsRNA-binding proteins, including ADAR1, Stau1, NLRP1, and PACT. Strikingly, dRIFs correlate with and form before translation repression by PKR and localize to regions of cells where PKR activation is initiated. We hypothesize that dRIF formation is a mechanism that cells use to enhance the sensitivity of PKR activation in response to low levels of dsRNA or to overcome viral inhibitors of PKR activation.