Protein Synthesis in Cell-Free Systems: an Effect of Interferon

Abstract

The activity of ribosome and cell-sap fractions from interferon-treated and control chick embryo fibroblasts was compared in mixed chick-mouse and purely chick cell-free systems capable of the synthesis of viral polypeptide(s) in response to viral ribonucleic acid (RNA). Interferon treatment of cells did not affect the intrinsic amino acid incorporation activity of these systems or their response to polyuridylic acid. With encephalomyocarditis (EMC) virus RNA as messenger, however, a fraction of the ribosomes from interferon-treated cells appeared less active than parallel controls. The results obtained with the corresponding cell-sap fractions were variable. Although competition between endogenous and added messengers cannot be excluded in these systems, a reduced level of translation of EMC RNA with interferon-treated cell ribosomes was also suggested by the results of analyses of tryptic digests of the products formed in response to the RNA. In addition, these analyses showed that this reduced activity must reflect a reduction in the rate or frequency of translation rather than a decrease in the length of the EMC RNA translated, for the same polypeptides were synthesized in response to the RNA with material from interferon-treated and control cells. Interferon added directly to the cell-free system was without effect. Although suggestive, these results do not provide definitive evidence for or against the hypothesis that virus protein synthesis is inhibited at the translational level in the interferon-treated cell. Possible alternative interpretations of the data are discussed.