Analysis of 3' terminals of human immunodeficiency virus type 1 transcripts in persistently infected cells.

To examine the 3' terminal processing of human immunodeficiency virus type 1 (HIV-1) transcripts and the effects of phorbol ester (TPA) on this processing, cellular RNAs from persistently infected T cells (MOLT-4) or promonocytes (U937), with or without TPA treatment, were analyzed. To map the 3' terminals of viral transcripts, the RNA samples were examined by RNase-protection assay with an HIV-1 long terminal repeat (LTR) antisense riboprobe. Without TPA treatment, the viral transcripts initiated at the cap site in 5' LTR and polyadenylated at poly(A) site in 3' LTR were dominantly detected in both types of cells. This analysis demonstrated that some occlusion mechanism inactivating the poly(A) site in 5' LTR might exist in these infected cells. After TPA treatment, we found a dramatic shift in the protected patterns of viral transcripts in MOLT-4 cells, while the shift in U937 cells was less dramatic. These results suggested that the primary factor(s) involved in the observed effect of TPA might be cellular. We also demonstrated that the shift in the protected patterns of viral transcripts was associated with increased steady-state levels of viral transcripts. These results indicated that the factors involved in the TPA-induced shift might have some relation to the trans-activation of HIV-1 by similar substances.