Specific inhibition of viral protein synthesis in HIV-infected cells in response to interferon treatment

Abstract

The mechanism of action of different types of interferons (IFN-alpha, -beta, and -gamma) against human immunodeficiency virus (HIV)-1 infection was investigated in chronically infected monocytoid U937 cells and during an acute infection of the T lymphoblastoid CEM cells. Two chronically infected U937 cell populations, obtained independently (referred to as type A and B cells), were analyzed for their response to IFNs. In type A cells, IFNs mainly inhibited virus particle release, whereas in type B cells, the anti-HIV effect of IFNs cells was found to be largely due to a specific inhibition of viral protein synthesis without any apparent effect on total cellular protein synthesis. Interestingly, such a differential inhibition of HIV protein synthesis could also be demonstrated in acutely infected CEM cells in response to treatment with IFN-alpha. Both in chronically infected U937 type B and acutely infected CEM cells, equivalent amounts of nuclear and cytoplasmic HIV-1 mRNA were detected in control and IFN-treated cells in spite of at least 80% inhibition of HIV protein synthesis. Analysis of the distribution of cellular and viral mRNAs on polysomes in HIV-1-infected cells demonstrated that IFN treatment induces a specific block on viral mRNA translation. These results indicate that the antiviral mechanism of IFN on later stages of HIV replication cycle may be partly due to the inhibition of HIV mRNA translation, besides an effect on virus budding or release.