Background: Leiomyosarcomas (LMS) are genetically heterogeneous tumors that arise from smooth muscle. Currently, the mainstay of systemic treatment for patients with advanced/metastatic disease is doxorubicin (Dox) based CTx. Several genomic analyses of LMS reveal defects in homologous recombination (HR) DNA repair pathway in about half of patients, consistent with a druggable “BRCAness” phenotype. Thus, we sought to determine which combinations of standard CTx and PARPi might be synergistic promising therapeutic strategies for LMS. Methods: Dox, Docetaxel (Doc), Temozolomide (Tmz) were evaluated in combination with PARPi (Olaparib [Ola], Niraparib [Nira] and Talazoparib [Tala]) at 12 different drug concentrations. Four LMS cell lines of different origins (gynecological - GY, abdominal - A, extremity - E) were tested in a high throughput manner. All drug concentrations were chosen according to EC_50. Cells were incubated with each combination for 7 days. Viability was assessed by ATPlite Luminescence Assay System.Evaluation of drug combination effect was performed using a Bliss synergy score. This system quantifies the degree of synergy as multiplicative effect of single drugs as if they acted independently. With a synergy score of -5 to 5, the interaction between two drugs is considered as additive; <-5 antagonistic and > 5 synergistic, and therefore a promising combination. Results: Anticancer activity, ranging from additive to synergistic was seen with all combinations. Results were consistent among all cell lines, independent of site of cell line origin (Table) Most synergistic combination in the majority of LMS cell lines were Dox or Tmz when combined with Tala, reaching up to 15 % and 27% above Bliss respectively. In contrast, Doc showed only additive effect with all analyzed PARPi. Conclusions: The data suggest that the combination of Dox or Tmz with PARPi may represent promising treatment options for LMS patients. Recent clinical studies support this notion in uterine LMS. Importantly these results suggest that such approach may be extended to all sites of LMS. Pre-clinical studies are underway to identify the most promising combinations for future clinical trial design.

Legend: Evaluation of synergy between CTx and PARPi in LMS cell lines (STS 39-GY, STS 137-E, STS 210- A, SKLMS1- GY). BLISS calculation for combination therapy is typographically emphasized – synergy, additive, or antagonistic effect. *Drug range represented in values, used for all 12 concentrations.