Immunoaffinity purification and functional characterization of human transcription factor IIH and RNA polymerase II from clonal cell lines that conditionally express epitope-tagged subunits of the multiprotein complexes.

Purification of multiprotein complexes such as transcription factor (TF) IIH and RNA polymerase II (pol II) has been a tedious task by conventional chromatography. To facilitate the purification, we have developed an effective scheme that allows human TFIIH and pol II to be isolated from HeLa-derived cell lines that conditionally express the FLAG-tagged p62 subunit of human TFIIH and the RPB9 subunit of human pol II, respectively. An approximate 2000-fold enrichment of FLAG-tagged TFIIH and a 1000-fold enhancement of total pol II are achieved by a one-step immunoaffinity purification. The purified complexes are functional in mediating basal and activated transcription, regardless of whether TATA-binding protein or TFIID is used as the TATA-binding factor. Interestingly, repression of basal transcription by the positive cofactor PC4 is alleviated by increasing amounts of TFIID, TFIIH, and pol II holoenzyme, suggesting that phosphorylation of PC4 by these proteins may cause a conformational change in the structure of PC4 that allows for preinitiation complex formation and initiation of transcription. Furthermore, pol II complexes with different phosphorylation states on the carboxyl-terminal domain of the largest subunit are selectively purified from the inducible pol II cell line, making it possible to dissect the role of carboxyl-terminal domain phosphorylation in the transcription process in a highly defined in vitro transcription system.

TAFII-independent activation mediated by human TBP in the presence of the positive cofactor PC4.

TFIID is a multiprotein complex comprised of the TATA-binding protein (TBP) and an array of TBP-associated factors (TAFIIs). Whereas TBP is sufficient for basal transcription in conjunction with other general transcription factors and RNA polymerase II, TAFIIs are additionally required for activator-dependent transcription in mammalian cell-free transcription systems. However, recent in vivo studies carried out in yeast suggest that TAFIIs are not globally required for activator function. The discrepancy between in vivo yeast studies and in vitro mammalian cell-free systems remains to be resolved. In this study, we describe a mammalian cell-free transcription system reconstituted with only recombinant proteins and epitope-tagged multiprotein complexes. Transcriptional activation can be recapitulated in this highly purified in vitro transcription system in the absence of TAFIIs. This TBP-mediated activation is not induced by human mediator, another transcriptional coactivator complex potentially implicated in activator response. In contrast, general transcription factors TFIIH and TFIIA play a significant role in TBP-mediated activation, which can be detected in vitro with Gal4 fusion proteins containing various transcriptional activation domains. Our data, therefore, suggest that TFIIH and TFIIA can mediate activator function in the absence of TAFIIs.