Human immunodeficiency virus (HIV) transcription requires virally encoded Tat and the P-TEFb protein complex, which together associate with the Tat-activating region, a structured region in the nascent transcript. P-TEFb phosphorylates proteins in the transcription elongation complex, including RNA polymerase II (pol II), to stimulate elongation and to overcome premature termination. However, the status of the elongation complex on the HIV long terminal repeat (LTR) in a repressed state is not known. Chromatin immunoprecipitation demonstrated that NELF, a negative transcription elongation factor, was associated with the LTR. Depleting NELF increased processive HIV transcription and replication. Mapping pol II on the LTR showed that pol II was paused and that NELF depletion released pol II. Decreasing NELF also correlated with displacement of a positioned nucleosome and increased acetylation of histone H4, suggesting coupling of transcription elongation and chromatin remodeling. Previous work has indicated that the Tat-activating region plays a critical role in regulating transcription from the LTR. Our results reveal an earlier stage, mediated by NELF, when repression occurs at the HIV LTR.
Human immunodeficiency virus (HIV)3 proviral expression is regulated at the transcriptional level. Virus transcription is controlled by the upstream long terminal repeat (LTR), which includes cis-elements that recruit both cellular and viral factors. The HIV-1 LTR is often divided into functional elements: the Tat-activating region (TAR), the promoter, the enhancer, and the negative/modulatory regulatory element. The promoter, enhancer, and modulatory elements recruit host transcription factors, such as Sp-1, NF-B and CCAAT/enhancer-binding protein, necessary to initiate transcription (1, 2). These factors also recruit coactivators, including histone acetyltransferases and SWI/SNF complexes, that influence the chromatin structure of integrated provirus (3-7). For example, the 5Ј-untranslated leader region located downstream of the transcriptional start site is associated with a nucleosome in latent HIV proviruses, which is displaced upon induction of virus transcription. Furthermore, agents that inhibit histone deacetylases, such as trapoxin and trichostatin A, activate HIV provirus transcription, suggesting a critical role for chromatin remodeling in the repression of HIV transcription (7,8).Transcription elongation has also been demonstrated to be a limiting step for HIV expression. HIV encodes a transcriptional activator (Tat) that binds the RNA stem-loop structure formed by TAR, and by recruiting P-TEFb to the LTR, HIV enhances processive transcription. P-TEFb, which is composed of cyclin T1 and CDK9, modifies RNA polymerase II (pol II) activity by hyperphosphorylating the C-terminal domain of pol II. In the absence of Tat, transcription elongation by RNA pol II from the HIV promoter is very inefficient (9). In vitro transcription analyses in the absence of chromatin revealed that the majority of elongation complexes init...
