PMID: 7521875Sep 16, 1994Paper

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

The Journal of Biological Chemistry
E M CocciaA G Hovanessian

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...Continue Reading

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