Ranscription units (Han et al., 2004; Lewinski et al., 2005). In the present work, we extended this knowledge by a detailed analysis of how TI impacts viral transcription in latent cells. Although TI occurs regardless of the orientation of the two promoters, we studied TI phenomenon in two J-Lat cell lines with the same orientation of the host and viral promoters, which allowed us to detect and an
Ormed using NorthernMax kit (Ambion) according to the manufacturer's instructions. The probes were amplified from cDNA synthesized with MMLV reverse transcriptase (Invitrogen). PCR products were labeled with BioNick Labelling System (Invitrogen). Stimulation of J-Lat cells and detection of activated cells by flow cytometry Tat protein was expressed from pCDNA3 vector using electroporation of 107 J
Vels of viral particles, we speculate that average levels of host-viral chimeric transcripts in these cells exceed those in the two J-Lat cell lines. These results thus suggest that TI plays a key role in primary CD4+ T cells. In J-Lat 9.2 and 15.4 cells, the host-viral chimeric transcripts terminated at the pA site in the 5'LTR, but transcripts initiating at the host promoter and terminating at t
Vels of viral particles, we speculate that average levels of host-viral chimeric transcripts in these cells exceed those in the two J-Lat cell lines. These results thus suggest that TI plays a key role in primary CD4+ T cells. In J-Lat 9.2 and 15.4 cells, the host-viral chimeric transcripts terminated at the pA site in the 5'LTR, but transcripts initiating at the host promoter and terminating at t
Nce it has been demonstrated that transcription from the PP5 promoter could be reduced through inhibiting estrogen receptor (ER) (Urban et al., 2001). Therefore, we established J-Lat 9.2 and control J-Lat 8.4 cell lines that stably express miRNA-adapted shRNA (shRNAmir) against the ER mRNA (J-Lat 9.2 shER and J-Lat 8.4 shER, respectively). In both J-Lat shER cell lines, the ER levels were decrease
K of the latent provirus in J-Lat 9.2 cells is TI of the 5'LTR caused by the transcription of the host PP5* gene. This interfering transcription results in the lack of Sp1 and the presence of the elongating RNAPII at the 5'LTR. Moreover, TI can be partially rescued by TNF- stimulation, as documented by the appearance of Sp1 and initiating RNAPII at the 5'LTR. The slight enrichment of the RNAPII in
K of the latent provirus in J-Lat 9.2 cells is TI of the 5'LTR caused by the transcription of the host PP5* gene. This interfering transcription results in the lack of Sp1 and the presence of the elongating RNAPII at the 5'LTR. Moreover, TI can be partially rescued by TNF- stimulation, as documented by the appearance of Sp1 and initiating RNAPII at the 5'LTR. The slight enrichment of the RNAPII in
Me transcription through the provirus, since slight enrichment of elongating RNAPII in the HIV coding region of transcriptionally silent J-Lat 9.2 cells was observed using ChIPqPCR assay. However, transcription originating from the host promoter, ignoring pA sites in both LTRs and consequently splicing out the provirus together with the host intron (Han et al., 2004) is most likely less frequent t