PrimPol Bypasses UV Photoproducts during Eukaryotic Chromosomal DNA Replication

DNA damage can stall the DNA replication machinery, leading to genomic instability. Thus, numerous mechanisms exist to complete genome duplication in the absence of a pristine DNA template, but identification of the enzymes involved remains incomplete. Here, we establish that Primase-Polymerase (PrimPol; CCDC111), an archaeal-eukaryotic primase (AEP) in eukaryotic cells, is involved in chromosomal DNA replication. PrimPol is required for replication fork progression on ultraviolet (UV) light-damaged DNA templates, possibly mediated by its ability to catalyze translesion synthesis (TLS) of these lesions. This PrimPol UV lesion bypass pathway is not epistatic with the Pol η-dependent pathway and, as a consequence, protects xeroderma pigmentosum variant (XP-V) patient cells from UV-induced cytotoxicity. In addition, we establish that PrimPol is also required for efficient replication fork progression during an unperturbed S phase. These and other findings indicate that PrimPol is an important player in replication fork progression in eukaryotic cells. [Display omitted] •PrimPol is a DNA primase-polymerase catalyzing bypass of UV and oxidative lesions•PrimPol operates in a UV lesion tolerance pathway that is non-epistatic with Pol η•PrimPol null cells are defective in fork progression, particularly after UV treatment•Loss of PrimPol leads to increased mitotic chromosomal breaks