How human papillomavirus (HPV) targets DNA repair pathways for viral replication: from guardian to accomplice.

SUMMARYHuman papillomaviruses (HPVs) are small DNA viruses that are responsible for significant disease burdens worldwide, including cancers of the cervix, anogenital tract, and oropharynx. HPVs infect stratified epithelia at a variety of body locations and link their productive life cycles to the differentiation of the host cell. These viruses have evolved sophisticated mechanisms to exploit cellular pathways, such as DNA damage repair (DDR), to regulate their life cycles. HPVs activate key DDR pathways such as ATM, ATR, and FA, which are critical for maintaining genomic integrity but are often dysregulated in cancers. Importantly, these DDR pathways are essential for HPV replication in undifferentiated cells and amplification upon differentiation. The ability to modulate these DDR pathways not only enables HPV persistence but also contributes to cellular transformation. In this review, we discuss the recent advances in understanding the mechanisms by which HPV manipulates the host DDR pathways and how these depend upon enhanced topoisomerase activity and R-loop formation. Furthermore, the strategies to manipulate DDR pathways utilized by high-risk HPVs are compared with those used by other DNA viruses that exhibit similarities and distinct differences.