Abstract
A unique aspect of the retrovirus life cycle is the obligatory integration of the provirus into host cell chromosomes. Unlike viruses that do not integrate, retroviruses must conserve an ability to activate transcription from a chromatin context. Human immunodeficiency virus (HIV)-1 encodes an unusual and an unusually potent transcriptional transactivator, Tat, which binds to a nascent viral leader RNA, TAR. The action of Tat has been well studied in various reductive model systems; however, the physiological mechanism through which Tat gains access to chromatin-associated proviral long terminal repeats (LTRs) is not understood. We show here that a nuclear histone acetyltransferase activity associates with Tat. Intracellularly, we found that Tat forms a ternary complex with p300 and P/CAF, two histone acetyltransferases (HATs). A murine cell defect in Tat transactivation of the HIV-1 LTR was linked to the reduced abundance of p300 and P/CAF. Thus, overexpression of p300 and P/CAF reconstituted Tat transactivation of the HIV-1 LTR in NIH3T3 cells to a level similar to that observed for human cells. By using transdominant p300 or P/CAF mutants that lack enzymatic activity, we delineated a requirement for the HAT component from the latter but not the former in Tat function. Finally, we observed that Tat-associated HAT is preferentially important for transactivation of integrated, but not unintegrated, HIV-1 LTR.
Highlights
DNA in eukaryotes is packaged with histones and non-histone proteins into chromatin
We find that the histone acetyltransferase activity of P/CAF is preferentially required for Tat function
An HIV-1 Tat-associated Histone Acetyltransferase Activity— Various studies have indicated that the integrated HIV-1 provirus is organized into nucleosomes [64, 65]
Summary
24898 –24905, 1998 Printed in U.S.A. Activation of Integrated Provirus Requires Histone Acetyltransferase p300 AND P/CAF ARE COACTIVATORS FOR HIV-1 Tat*. One route to the remodeling of chromatin is through acetylation of histone tails which alters nucleosomal structures (reviewed in Ref. 5) facilitating entry of transcription factors to promoters. Consistent with this concept, intrinsic (GCN5, p300/CBP, P/CAF, TAF250, and ACTR; reviewed in Ref. 6) and/or associated (reviewed in Ref. 7) histone acetyltransferase activities have been described for many transcription factors. P300 and CBP [12] are adaptors for various DNA-binding transcription factors (for review see Ref. 13). Tat-associated HAT likely provides a precedent for one function that may be conserved for viruses that integrate into host chromosomes
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