Mechanism of Mengo Virus-Induced Cell Injury in L Cells: Use of Inhibitors of Protein Synthesis to Dissociate Virus-Specific Events

Abstract

L cells were infected with Mengo virus in the presence of varying concentrations of protein synthesis inhibitors (azetidine-2-carboxylic acid, p -fluorophenylalanine, puromycin), and examined with respect to the effects of the inhibitors on several features of virus-induced cell injury. The virus-specific events in the cells could be dissociated into three groups, based on their sensitivity to the inhibitors: (i) viral ribonucleic acid (RNA) synthesis, bulk viral protein synthesis, and infectious particle production, all of which were prevented by low inhibitor concentrations; (ii) the cytopathic effect (CPE) and stimulation of phosphatidylcholine synthesis, which were sensitive to intermediate concentrations of the inhibitors; and (iii) the virus-induced inhibitions of host RNA and protein synthesis, which were resistart to the inhibitors of protein synthesis except at very high concentrations. It is concluded from this that the virus-induced CPE and stimulation of phosphatidylcholine synthesis are not consequences of the inhibition of cellular RNA or protein synthesis. Analysis of the virus-specific protein and RNA synthesized at several concentrations of azetidine and puromycin suggests that the CPE may be induced by a viral protein precursor. Virus-induced inhibition of host RNA and protein synthesis occurred at azetidine concentrations which blocked the synthesis of over 99.7% of the total viral RNA and over 99% of the viral double-stranded RNA (dsRNA). Calculations show that this would correspond to less than 150 dsRNA molecules per infected cell, resulting in a dsRNA-polysome ratio of less than 1:1,000; this indicates that host protein synthesis cannot be inhibited by an irreversible binding of dsRNA to polysomes.