Abstract
Ribonucleases appear to have physiologic roles in host defense against cancer, viruses, and other parasites. Previously it was shown that select ribonucleases added to cells concurrently with virions blocked human immunodeficiency virus, type I (HIV-1) infection of H9 cells. We now report that a ribonuclease homologous to RNase A, named onconase, inhibits virus replication in chronically HIV-1-infected human cells without killing the virally infected cell. Examining the mechanism of this inhibition shows that onconase enters the infected cells and degrades HIV-1 RNA without degrading ribosomal RNA or the three different cellular messenger RNAs analyzed. The homologous human pancreatic RNase lacks anti-viral activity. Comparing recombinant forms of onconase and a onconase-human RNase chimera shows that the N-terminal 9 amino acids and the pyroglutamyl residue of onconase are required for full anti-viral activity. Thus extracellular ribonucleases can enter cells, metabolize select RNAs, and inhibit HIV virion production within viable replicating cells.
Highlights
Ribonucleases may play anti-viral roles in animals and plants [1, 2]
We studied U937 cells persistently infected with these two HIV-1 strains (IIIB and MN) and found that onconase inhibited p24 antigen production of both strains (Fig. 2, A and B)
The mammalian cells were persistently infected with HIV, indicating that steps in the HIV-1 life cycle subsequent to genomic integration are susceptible to ribonuclease intervention
Summary
20783–20788, 1996 Printed in U.S.A. Inhibition of HIV-1 Production and Selective Degradation of Viral RNA by an Amphibian Ribonuclease*. It was shown that select ribonucleases added to cells concurrently with virions blocked human immunodeficiency virus, type I (HIV-1) infection of H9 cells. We report that a ribonuclease homologous to RNase A, named onconase, inhibits virus replication in chronically HIV-1-infected human cells without killing the virally infected cell. The homologous human pancreatic RNase lacks anti-viral activity. Extracellular ribonucleases can enter cells, metabolize select RNAs, and inhibit HIV virion production within viable replicating cells. During viral penetration and selectively kill virally infected H9 cells, thereby blocking virus production by the mechanism proposed for a series of plant anti-viral proteins [11, 12]. The current study was aimed to explore the mechanism of onconase action and its effect on H9 and U937 cells persistently infected with HIV-1 isolates
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