RAD52 underlies the synthetic-lethal relationship between BRCA1/2 and 53BP1 deficiencies and DNA polymerase theta loss.

Introductory paragraphCells lacking several DNA repair proteins, including those promoting homologous recombination (HR), are sensitive to polymerase theta (Pol{theta}) repression1-4. Pol{theta} drives theta-mediated end joining (TMEJ) and suppresses HR but what mediates its synthetic lethal relationships is unclear. Here we examine murine Brca1C61G/C61G 53bp1-/-cells and find they are largely HR proficient by using RNF168 and RAD52. They exhibit no more TMEJ than 53bp1-/- cells yet are more sensitive to targeting of Pol{theta}. We find that RAD52 recruitment to damaged chromatin is increased following Pol{theta} depletion. RAD52 accumulation and cellular sensitivity to Pol{theta} repression can be curbed by the RAD51-binding regions of BARD1 and BRCA2, and sensitivity of BRCA1/2 depleted cells to Pol{theta} repression is suppressed by RAD52 inhibition. 53bp1-/- cells exhibit a smaller increase in RAD52 recruitment following Pol{theta} repression and also become resistant to Pol{theta} repression following RAD52 inhibition. Thus, RAD52 mediates sensitivity to targeting Pol{theta} in these contexts.