Transcription cofactor PC4 plays essential roles in collaboration with the small subunit of general transcription factor TFIIE

Abstract

In eukaryotes, positive cofactor 4 (PC4) stimulates activator-dependent transcription by facilitating transcription initiation and the transition from initiation to elongation. It also forms homodimers and binds to single-stranded DNA and various transcriptional activators, including the general transcription factor TFIIH. In this study, we further investigated PC4 from Homo sapiens and the nematode Caenorhabditis elegans (hPC4 and cePC4, respectively). hPC4 strongly stimulated transcription on a linearized template, whereas it alleviated transcription on a supercoiled template. Transcriptional stimulation by PC4 was also alleviated by increasing the amount of TFIID. GST pull-down studies with general transcription factors indicated that both hPC4 and cePC4 bind strongly to TFIIB, TFIIEβ, TFIIFα, TFIIFβ and TFIIH XPB subunits and weakly to TBP and TFIIH p62. However, only hPC4 bound to CDK7. The effect of each PC4 on transcription was studied in combination with TFIIEβ. hPC4 stimulated both basal and activated transcription, whereas cePC4 primarily stimulated activated transcription, especially in the presence of TFIIEβ from C. elegans. Finally, hPC4 bound to the C-terminal region of hTFIIEβ adjacent to the basic region. These results indicate that PC4 plays essential roles in the transition step from transcription initiation to elongation by binding to melted DNA in collaboration with TFIIEβ.