PP1 PNUTS binds the restrictor and dephosphorylates RNA pol II CTD Ser5 to stimulate transcription termination

The restrictor, ZC3H4/WDR82, is the major termination factor for antisense transcription from bidirectional promoters, but its mechanism is poorly understood. We report that ZC3H4/WDR82 co-purifies with PP1 phosphatase and PP1 phosphatase nuclear targeting subunit, PNUTS, which binds directly to the WDR82 subunit of restrictor. AlphaFold predicts a quaternary complex, PPWZ, in which PP1-associated PNUTS and ZC3H4 both contact WDR82. To investigate the role of protein dephosphorylation in PPWZ activity, we expressed a substrate trap comprising inactive PP1H66K linked to the PNUTS C-terminus. PP1H66K-PNUTS binds pol II large subunit and nuclear exosome components. PP1H66K-PNUTS, but not PP1WT-PNUTS, functions as a dominant-negative inhibitor of antisense termination and CTD Ser5 dephosphorylation. Both these activities require the PNUTS WDR82 binding domain that interacts with restrictor. We show that CTD Ser5 hyperphosphorylation is associated with higher processivity and reduced pausing that would counteract termination, and propose that Ser5 dephosphorylation by PPWZ is coupled to termination. In summary, we identify the PP1 phosphatase activity of the PPWZ complex as essential for terminator function and propose that this heterotetramer is the physiologically relevant form of restrictor.