A quantitative reverse transcriptase-polymerase chain reaction for HIV-l-specific RNA species

Abstract The ability to evaluate the patterns and levels of human immunodeficiency virus type I (HIV-1)-specific RNA in latently and productively-infected cell lines, and primary human cells, is critical to the understanding of HIV-1 expression in cell cultures and possibly in vivo. We have developed a quantitative reverse transcriptase-polymerase chain reaction (RT-PCR), utilizing in vitro transcribed RNA standards, to evaluate the copy number per cell and per microgram of total cellular RNA of multiply-spliced, unspliced and total HIV-1-specific RNA species. The latently-infected monocytic and T-lymphocyte cell lines, U1 and ACH-2 respectively, are shown to express between 10 4 to 10 6 copies of total HIV-l-specific RNA per cell, based on the state of cellular stimulation. A dramatic increase of unspliced HIV-l-specific RNA in both the U1 cell line and the ACH-2 cell line is demonstrated by this quantitative RT-PCR, 24 h after stimulation with phorbol esters. These data suggest that a single integrated HIV-1 provirus can rapidly express large quantities of HIV-1-specific RNA. Quantitative RT-PCR, for HIV-1-specific transcripts, should prove extremely useful in evaluating retroviral load and pathogenesis in cell cultures and in vivo.