Abstract
Hypoxia is common in tumors and is associated with cancer progression and drug resistance, driven, at least in part, by genetic instability. Little is known on how hypoxia affects Translesion DNA Synthesis (TLS), in which error-prone DNA polymerases bypass lesions, thereby maintaining DNA continuity at the price of increased mutations. Here we show that under acute hypoxia, PCNA monoubiquitination, a key step in TLS, and expression of error-prone DNA polymerases increased under regulation of the HIF1α transcription factor. Knocking-down expression of DNA polymerase η, or using PCNA ubiquitination-resistant cells, inhibited genomic DNA replication specifically under hypoxia, and iPOND analysis revealed massive recruitment of TLS DNA polymerases to nascent DNA under hypoxia, uncovering a dramatic involvement of error-prone DNA polymerases in genomic replication. Of note, expression of TLS-polymerases correlates with VEGFA (primary HIF1α target) in a database of renal cell carcinoma, a cancer which accumulates HIF1α. Our results suggest that the tumor microenvironment can lead the cell to forgo, to some extent, the fast and accurate canonical DNA polymerases, for the more flexible and robust, but low-fidelity TLS DNA polymerases. This might endow cancer cells with resilience to overcome replication stress, and mutability to escape the immune system and chemotherapeutic drugs.
Published Version
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