Regulation of RNA Polymerase II Transcription

Regulation of RNA Polymerase II Transcription

Regulation of RNA polymerase II transcription Ronny Drapkin, Alejandro Merino and Danny Reinberg Robert Wood Johnson Medical School, University of Medicine and Dentistry of New Jersey, Piscataway, USA Transcription initiation plays a central role in the regulation of gene expression. Exciting developments in the last year have furthered our understanding of the interactions between general transcription factors and how these factors respond to modulators of transcription. Current Opinion in Cell Biology 1993, 5:469-476 Introduction TFIIJ. Formation of the DAB--polFEHJ complex, in the presence of each of four ribonucleoside triphosphates, Cellular growth and differentiation employ precise mech- enables RNAPII to clear the promoter region and initiate anisms to regulate the expression of various genes. One RNA synthesis from a specific start site [ 51. of the most rudimentary mechanisms for a cell to control The past year has seen intense activity aimed at elucidat- the functional levels of a protein is to modulate the lev- ing the molecular mechanisms underlying transcription els of mRNA encoding that polypeptide. It is therefore not initiation. In particular, the interactions that GTFs can surprising that most of the genetic programs that main- mediate, the GTF requirements for initiation, the role tain the cell in a constant state of flux mediate their effects of RNAPII phosphorylation, and the phenomenon of by impinging on mechanisms that control transcription antirepression in the process of activation have been initiation. the subject of many studies. These most recent develop- In contrast to prokaryotic RNA polymerase, eukaryotic ments are the focus of this review. enzymes require multiple accessory proteins to acquire promoter specificity. The synthesis of mRNA in eukary- otes is carried out by RNA polymerase II (RNAPII), a multisubunit enzyme that, to date, requires the presence Minicomplexes of seven auxiliary factors, commonly known as basal or general factors, for the accurate initiation of transcription Contrary to the dogma that all promoters require the full from class II promoters. These seven general transcrip- set of GTFs for basal transcription, the immunoglobulin tion factors (GTFs) are TFIIA, IIB, IID, IIE, IIF, IIH and heavy chain (IgH) gene promoter can be transcribed with IIJ. Early studies [l] demonstrated that formation of a sta- a subset of GTFs. Initially, Parvin et al [6] reported that ble initiation complex occurs through the highly ordered transcription from the IgH promoter was independent of assembly of the GTFs and RNAPII on class II promoter se- TFIIE. Recently, however, Parvin and Sharp [7**] found quences. TFIID is the only GTF shown to have sequence- that the 1gI-f promoter could be transcribed to high lev- specific DNA-binding activity. The binding of TFIID to the els by RNAPII in the presence of only TBP and TFIIEL TATA box, typically located 30 nucleotides upstream of The ability of this subset of GTFs to transcribe the IgH the transcription start site, constitutes the initial step in promoter appears to be dependent on the DNA being the formation of a transcription-competent complex [ 21. negatively supercoiled. When the DNA was relaxed or Mammalian TFIID is a multisubunit complex composed linearized, transcription from the IgH promoter required of the TATA-binding protein (TBP) and additional, tightly the entire array of GTFs [7**]. This observation appears complexed, TBP-associated factors (TAFs) [3,4]. TFIIA to be specific to the 1gH promoter, as transcription associates with TBP and stabilizes the DNA-TFIID com- from the adenovirus major late promoter (Ad-MLP) re- plex. TFIIB then enters the complex, resulting in the for- quired all the previously described factors, Independent mation of a TFIID, IIA, IIB (DAB) complex. This pre-initi- of the state of the DNA Kadonaga and colleagues [8] ation complex intermediate serves as the nucleation site have also analyzed factor requirements for transcription for the entry of the remaining GTFs and RNAPII. TFIIF of several Drosophila promoters as well as the Ad-MLP. mediates the entry of RNAPII into the complex, fol- Using TBP they found that a subset of promoters could lowed by the ordered association of TFIIE, TFIIH and be transcribed in the presence of TBP, TFIB, RNAPII and Abbreviations Ad-MLP-adenovirus major late promoter; CTD-carboxyl-terminal domain; DAB-TFIID, HA, IIB complex; DNA-PK-DNA-dependent protein kinase; CTF-general transcription factor; IgH-immunoglobulin heavy chain; RNAP-RNA polymerase; SRB-suppressor of RNA polymerase B; TAF-TBP-associated factor; TBP-TATA-binding protein; topo-topoisomerase. @ Current Biology Ltd ISSN 0955-0674 470 Nucleus and gene expression the small subunit of TFIIF, RAP30. Recent studies in our was found that dTAF250 interacts directly with dTBP. Al- laboratory resulted in the following observations: first, the though Drosophila TAFllO cannot bind directly to dTBP, requirement for some basal factors may be a function it is tightly associated with dTAF250 and is also capable of the length of the transcript analyzed; second, whereas of interacting with the Spl activator. The human TAF250 minimal subsets of factors may be capable of mediating appears to be similar to the Drosophila TAF250 as it can transcription, this process is very inefficient, especially directly interact with TBP in vitro as well as in duo for transcripts exceeding 70 nucleotides in length. Pro- [I6*]. Interestingly, the cDNA encoding hTAF250 was duction of transcripts up to 70 nucleotides in length found to be identical to the cell cycle regulator CCGl. is extremely efficient; the complete set of factors was This intriguing observation suggests that hTAF250/CCGl capable of producing RNA molecules approaching the may be involved in regulation of cell cycle progression. number of template molecules. Interestingly, a subset Based on this result, one can speculate that TFIID is a of factors, namely TBP, TFIIB, RNAPII and TFIIH, was dynamic complex whose TAF composition varies during found to be sufficient for transcription and production different physiological stages. Zhou et al. [17*] contend of an RNA molecule 70 nucleotides in length. However, that, unlike dTAF110, hTAF125 also interacts directly with the extent of the reaction with this subset of factors hTBP. These results may not necessarily be controversial was less than 5% of that observed with all the fac- as they may be a consequence of differences between tors. The activity of this minicomplex, DB-polH, could species. Tanese et al. [4] demonstrated that there are not be demonstrated when analyzing for production of three human TAFs in the 100 kDa range. It is possible that RNA molecules 400 nucleotides in length. The existence hTAF125 is not the homologue of dTAFll0 but that one of a minicomplex capable of transcribing the Ad-MLP al- of the two remaining hTAFs in this range is. Interestingly, lowed us to analyze the effect of the other factors inde- it was demonstrated that the divergent amino terminus of pendently. It was found that TFIIE and the small subunit TBP is not required for the association of the TAFs. This of TFIIF, RAP30, could independently stimulate transcrip- implies that the evolutionarily conserved carboxyl ter- tion of the DB-polH minicomplex, while the large sub- minus is sufficient not only for DNA binding, but also for unit, RAP74, had no effect. Nonetheless, transcription of a the interaction with TAFs [ 18.1. 400 nucleotide RNAwas dependent on RAP74. These pre- liminary lindings agree with previous observations sug- One of the most exciting developments of the last year gesting a dual role for TFIIF in initiation and elongation has been the determination of the X-ray crystal structure [9,10]. Moreover, it was also observed that TFIIJ was not of TBP. The crystal structure of TBP-2 from Arubidopsis required for short transcript synthesis but drastically stim- thaliunu revealed a new, highly symmetrical DNA-bind- ulates transcription of longer RN& suggesting a role in ing fold resembling a saddle. The concave DNA-binding elongation. This finding is consistent with our failure to surface of the saddle is a curved antiparallel g-sheet, demonstrate TFIIJ commitment in template competition which may mediate specific and non-specific contacts assays (L Zawel, P Kumar, D Reinberg, unpublished data). with the DNA. Upon binding to DNA, the convex sur- face of the saddle is present for interaction with TAFs, Although these Iindings are exciting, the minicomplexes GTFs and other regulatory proteins. We look forward to may only be competent to transcribe when TBP is used future crystallographic studies that will further our under- as a source of TFIID. The presence of TAFs may expand standing of the DNA-TBP interaction, and explain how the requirement for seven GTFs. As TBP appears to al- TBP can accommodate the vast number of interactions ways be associated with TAFs in vivo, the significance of that biochemical studies have demonstrated [ 19.01. these observations is questionable. As previously mentioned, the association of RNAPR and the other GTFs on TATA-containing promoters requires the presence of a DAB complex. These observations have Advances in general transcription factor been extended to demonstrate that TFIIB can interact with three components of the basal transcription machin- interactions ery, namely TBP, RNAPII and the small subunit of TFIIF. Discrete domains in TFIIB mediate these protein-protein Chromatographic studies indicate that endogenous

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