Dual function of HPF1 in the modulation of PARP1 and PARP2 activities.

Poly(ADP-ribosyl)ation catalyzed by poly(ADP-ribose) polymerases (PARPs) is one of the immediate cellular responses to DNA damage. The histone PARylation factor 1 (HPF1) discovered recently to form a joint active site with PARP1 and PARP2 was shown to limit the PARylation activity of PARPs and stimulate their NAD+-hydrolase activity. Here we demonstrate that HPF1 can stimulate the DNA-dependent and DNA-independent autoPARylation of PARP1 and PARP2 as well as the heteroPARylation of histones in the complex with nucleosome. The stimulatory action is detected in a defined range of HPF1 and NAD+ concentrations at which no HPF1-dependent enhancement in the hydrolytic NAD+ consumption occurs. PARP2, comparing with PARP1, is more efficiently stimulated by HPF1 in the autoPARylation reaction and is more active in the heteroPARylation of histones than in the automodification, suggesting a specific role of PARP2 in the ADP-ribosylation-dependent modulation of chromatin structure. Possible role of the dual function of HPF1 in the maintaining PARP activity is discussed.

Kurgina TA ，Moor NA ，Kutuzov MM ，Naumenko KN ，Ukraintsev AA ，Lavrik OI ... -  《Communications Biology》

[Poly(ADP-Ribose) Polymerases 1 and 2: Classical Functions and Interaction with New Histone Poly(ADP-Ribosyl)ation Factor HPF1].

Kurgina TA ，Lavrik OI 《-》

The HPF1-dependent histone PARylation catalyzed by PARP2 is specifically stimulated by an incised AP site-containing BER DNA intermediate.

Poly(ADP-ribose) polymerase 1 (PARP1) and PARP2 are DNA-dependent poly(ADP-ribose)transferases localized in nucleus. They have a significant homology in the C-terminal catalytic domain structure but differ in their N-terminal DNA-binding parts. The structural difference has an impact on the interaction of PARP1 and PARP2 with DNA and their DNA-dependent activation. Here, we compare the interaction of PARP1 and PARP2 with free 147 bp nucleosomal DNA and its nucleosome-associated variant (NCP) that contain in one strand a 1-nucleotide gap with 5'-dRP (imitating the intermediate of Base Excision Repair) or no specific damage. The affinity of PARP2 for the DNA strongly depends on the gap presence and to a lesser extent on the association with nucleosomes, while PARP1 interacts primarily with blunt ends of all DNAs and with a lower affinity with the single-strand break. The activities of PARP1 and PARP2 in the autoPARylation reaction and heteromodification of histones are distinctly stimulated by HPF1, depending on the gap presence in activating DNA. The most significant HPF1-induced stimulation of the histone modification in the presence of gapped NCP is a peculiar feature of PARP2. We propose a specific regulatory role of PARP2 in the process of DNA repair in the context of chromatin.

Kurgina TA ，Moor NA ，Kutuzov MM ，Lavrik OI ... -  《-》

HPF1 and nucleosomes mediate a dramatic switch in activity of PARP1 from polymerase to hydrolase.

Poly(ADP-ribose) polymerase 1 (PARP1) is an important player in the response to DNA damage. Recently, Histone PARylation Factor (HPF1) was shown to be a critical modulator of the activity of PARP1 by facilitating PARylation of histones and redirecting the target amino acid specificity from acidic to serine residues. Here, we investigate the mechanism and specific consequences of HPF1-mediated PARylation using nucleosomes as both activators and substrates for PARP1. HPF1 provides that catalytic base Glu284 to substantially redirect PARylation by PARP1 such that the histones in nucleosomes become the primary recipients of PAR chains. Surprisingly, HPF1 partitions most of the reaction product to free ADP-ribose (ADPR), resulting in much shorter PAR chains compared to reactions in the absence of HPF1. This HPF1-mediated switch from polymerase to hydrolase has important implications for the PARP1-mediated response to DNA damage and raises interesting new questions about the role of intracellular ADPR and depletion of NAD+.

Rudolph J ，Roberts G ，Muthurajan UM ，Luger K ... -  《eLife》

HPF1 completes the PARP active site for DNA damage-induced ADP-ribosylation.

Suskiewicz MJ ，Zobel F ，Ogden TEH ，Fontana P ，Ariza A ，Yang JC ，Zhu K ，Bracken L ，Hawthorne WJ ，Ahel D ，Neuhaus D ，Ahel I ... -  《-》