A new pathway of translational regulation mediated by eukaryotic initiation factor 3.

We report a new pathway of translation regulation that may operate in interferon-treated or virus-infected mammalian cells. This pathway is activated by P56, a protein whose synthesis is strongly induced by interferons or double-stranded RNA. Using a yeast two-hybrid screen, we identified the P48 subunit of the mammalian translation initiation factor eIF-3 as a protein that interacts with P56. The P56-P48 interaction was confirmed in human cells by co-immunoprecipitation assays and confocal microscopy. Gel filtration assays revealed that P56 binds to the large eIF-3 complex that contains P48. Purified recombinant P56 inhibited in vitro translation of reporter mRNAs in a dose-dependent fashion, and that inhibition was reversed by the addition of purified eIF-3. In vivo, expression of transfected P56 or induction of the endogenous P56 by interferon caused an inhibition of overall cellular protein synthesis and the synthesis of a transfected reporter protein. As expected, a P56 mutant that does not interact with P48 and eIF-3 failed to inhibit protein synthesis in vitro and in vivo.