Isolation and structural characterization of cap-binding proteins from poliovirus-infected HeLa cells.

In poliovirus-infected HeLa cells, poliovirus RNA is translated at times when cellular mRNA translation is strongly inhibited. It is thought that this translational control mechanism is mediated by inactivation of a cap-binding protein complex (comprising polypeptides of 24 [24-kilodalton cap-binding protein], 50, and approximately 220 kilodaltons). This complex can restore the translation of capped mRNAs in extracts from poliovirus-infected cells. We have previously shown that the virally induced defect prevents interaction between cap recognition factors and mRNA. Here, we show that the cap-binding protein complex (and not the 24-kilodalton cap-binding protein) has activity that restores the cap-specific mRNA-protein interaction when added to initiation factors from poliovirus-infected cells. Thus, the activity that restores the cap-specific mRNA-protein interaction and that which restores the translation of capped mRNAs in extracts from poliovirus-infected cells, copurify. The results also indicate, by an alternative assay, that the cap-binding protein complex is the only factor inactivated by poliovirus. We also purified cap-binding proteins from uninfected and poliovirus-infected HeLa cells. By various criteria, the 24-kilodalton cap-binding protein is not structurally modified as a result of infection. However, the 220-kilodalton polypeptide of the cap-binding protein complex is apparently cleaved by a putative viral (or induced) protease. By in vivo labeling and m7GDP affinity chromatography, we isolated a modified cap-binding protein complex from poliovirus-infected cells, containing proteolytic cleavage fragments of the 220-kilodalton polypeptide.     

Restriction of translation of capped mRNA in vitro as a model for poliovirus-induced inhibition of host cell protein synthesis: relationship to p220 cleavage.

Poliovirus infection of HeLa cells results in a rapid inhibition of host protein synthesis by a mechanism that does not affect the translation of poliovirus RNA. It has been suggested that this virus-induced translational control results from inactivation of the cap-binding protein complex, and it has been shown that the 220-kilodalton component(s) (p220) of the cap-binding protein complex is cleaved in infected HeLa cells to form antigenically related polypeptides of 100 to 130 kilodaltons. We have previously described an activity in infected cells that specifically restricts translation of capped mRNA in rabbit reticulocyte lysates. Here, we describe further refinements and characterization of restriction assay. We determined that the assay is a good in vitro model for study of host cell shutoff by several criteria: (i) translation was inhibited in both instances at the step involving mRNA binding to ribosomes; (ii) translation of capped mRNA was specifically inhibited, whereas translation of poliovirus RNA was not; (iii) restriction activity appeared in infected cells with kinetics which parallel host cell shutoff; and (iv) restriction activity, like the specific inhibition of host translation, appeared in cells infected in the presence of guanidine-HCl. The restricting activity was partially purified from poliovirus-infected cells and was compared with the virus-induced p220 cleavage activity. Both activities copurified through numerous cell fractionation and biochemical fractionation procedures. However, specific restriction of capped mRNA translation in reticulocyte lysates occurred without complete cleavage of the endogenous p220.