Abstract
Cellular survival is dependent on the efficient replication and transmission of genomic information. DNA damage can be introduced into the genome by several different methods, one being the act of DNA replication. Replication is a potent source of DNA damage and genomic instability, especially through the formation of DNA double strand breaks (DSBs). DNA polymerase alpha is responsible for replication initiation. One subunit of the DNA polymerase alpha replication machinery is POLA2. Given the connection between replication and genomic instability, we decided to examine the role of POLA2 in DSB repair, as little is known about this topic. We found that loss of POLA2 leads to an increase in spontaneous DSB formation. Loss of POLA2 also slows DSB repair kinetics after treatment with etoposide and inhibits both of the major double strand break repair pathways: non-homologous end-joining and homologous recombination. In addition, loss of POLA2 leads to increased sensitivity to ionizing radiation and PARP1 inhibition. Lastly, POLA2 expression is elevated in glioblastoma multiforme tumors and correlates with poor overall patient survival. These data demonstrate a role for POLA2 in DSB repair and resistance to genotoxic stress.
Highlights
Accurate transmission of genetic material from mother cell to each daughter cell is essential for cellular survival
polymerase α (POLα) and double strand breaks (DSBs) repair, we examined no direct evidence for understanding a role of POLα of in the DNA
Elevated POLA2 Expression Is Detrimental to glioblastoma multiforme (GBM) Patients
Summary
Accurate transmission of genetic material from mother cell to each daughter cell is essential for cellular survival. This propagation of genetic material requires the efficient and timely replication of DNA in order to ensure that there are no alterations in the genome of subsequent cell generations. DNA replication is a multistep process that includes initiation and elongation, each with their own machinery [1]. The primosome, through the combined functions of primase and POLα, synthesizes a short RNA:DNA primer, that can act as a substrate for the high-fidelity DNA polymerases, POLδ and POLε, to use for processive elongation on the leading and lagging strands of DNA [2,5]
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