Abstract
DNA polymerase epsilon in an essential enzyme, responsible for the synthesis of the leading strand during DNA replication. Deficiencies and mutations in DNA polymerase epsilon catalytic subunit (POLE1) cause severe developmental abnormalities and cancers. Paradoxically, the non-catalytic C-terminal domain of yeast polymerase epsilon catalytic subunit (Pol2) is sufficient for cell survival. The non-catalytic essential function of Pol2 in yeast has been associated with its role in the assembly of the replicative helicase CMG. However, the understanding of POLE1 functions in DNA replication initiation in human cells is falling behind. In this study we use an auxin-inducible degron system to study the effect of POLE1 depletion on replication initiation in human cells. Surprisingly, in the absence of POLE1, human cells were able to assemble CMG helicase and initiate DNA synthesis that failed shortly after. Expression of POLE1 C-terminal non-catalytic domain was enough to rescue replication initiation and support slow, but processive DNA synthesis, which was dependent on the POLE1-POLE2 interaction. We propose a model where in human cells POLE1/POLE2 are not essential for CMG assembly, but are required during later steps of replication initiation. Our study provides some insights into the role of DNA polymerase epsilon in replication initiation in human cells.
Competing Interest Statement
The authors have declared no competing interest.