Abstract

Abstract Small cell lung cancer (SCLC) is a highly malignant cancer type with a 5-year survival rate of less than 10%. Different from non-small cell lung cancer (NSCLC), no effective target therapies have been approved to treat SCLC. Poly (ADP) ribose polymerase (PARP) overexpression in SCLC has prompted great efforts to evaluate the role of PARP inhibitors in clinic. To maximize their therapeutic value it is urgent in need to explore the best combination strategies between PARP inhibitors and other pathway modulators. In this study we identified a SCLC patient-derived xenograft (PDX) model with high PARP level and low nicotinamide phosphoribosyltransferase (NAMPT) level. Furthermore, synergistic effect of PARP and NAMPT dual inhibition was demonstrated, supporting translational research of PARP inhibitors and NAMPT inhibitors in this model. The mRNA expression of PARP as well as its 30 most-studied synthetic lethality genes was compared between SCLC and NSCLC in both PDXs and cancer cell lines. We found that NAMPT levels decreased most significantly in SCLC compared with NSCLC across the 30 synthetic lethality genes of PARP. As NAMPT is the rate-limiting enzyme for the synthesis of the PARP substrate β-NAD+, we hypothesized that low β-NAD+ level due to low NAMPT level might render SCLC sensitive to PARP inhibition. LU-01-0547, a SCLC PDX model with high PARP and low NAMPT expression, was identified here. To test our hypothesis, we investigated the preclinical efficacy of ABT888, a PARP inhibitor, with or without FK866, a NAMPT inhibitor, in this subcutaneous xenograft model. The single-agent efficacy of ABT888 was demonstrated (TGI=96%@100 mg/kg, BID). At a sub-optimal dose (50 mg/kg, BID), treatment of ABT888 alone produced little activity in the same model, while its combination with a NAMPT inhibitor, FK866, significantly boosted the antitumor response indicating the synergistic effect (TGI=117%, ORR=6/6, CR=4/6). When nicotinic acid (NA) was administered to promote β-NAD+ biosynthesis via the de novo pathway other than the NAMPT-mediated transformation, the PARP inhibitor’s effectiveness was greatly antagonized (TGI=70% vs. 13%), suggesting β-NAD+ level might correlate with PARP inhibitor sensitivity. In conclusion, this study identified a SCLC PDX model with high PARP and low NAMPT expression. Synergistic inhibition of PARP and NAMPT in this model was demonstrated superior to either treatment alone in efficacy, which warranted its future application in drug discovery. To our knowledge, this was the first in vivo evidence of synthetic lethality in SCLC PDX, supporting future clinical test of combination of PARP and NAMPT inhibitors in SCLC patients. Citation Format: Zhixiang Zhang, Dongfang Li, Chen Chen, Bo Zhang, Xuzhen Tang, Hao Ye, Qingyang Gu, Qunsheng Ji. Validation of synthetic lethality of PARP and NAMPT dual inhibition in a small cell lung cancer PDX model [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr 3852. doi:10.1158/1538-7445.AM2017-3852

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