Characterization of RNABP,an RNA Binding Protein That Associates with RNase L

The 2',5'-oligoadenylate (2-5A)/RNase L pathway is one of several enzymatic pathways induced by interferons (IFN). RNase L is a latent endoribonuclease that is activated on its binding by 2-5A and inhibited by the ribonuclease L inhibitor (RLI). We have shown previously by coimmunoprecipitation that RNase L may be associated with a 90-kDa RNA binding protein (RNABP), identified with a monoclonal antibody (mAb) raised against an RNase L complex purified under native conditions on 2-5A-sepharose. Here we confirm, by gel-filtration and pull-down analysis, the association of RNase L and RNABP, and we demonstrate that this association is significantly increased in the presence of 2-5A. Moreover, we found that RNABP protein levels decrease during terminal differentiation in various cell lines but do not vary during vesicular stomatitis virus (VSV) or encephalomyocarditis virus (EMCV) infection or following IFN-α/β treatment. In this latter case, although total cellular RNABP levels do not vary, the amount of RNABP found in the cytoplasm increases in comparison to that found in the nucleus, indicating a cytoplasmic localization of RNABP after IFN-α/β treatment. Finally, we demonstrate the interaction between RNase L and RNABP in intact cells. Microinjection of an mAb against RNABP into HeLa cells inhibits RNase L antiviral activity and partially inhibits the IFN-α/β-induced antiviral activity.