Targeting MTAP increases PARP inhibitor susceptibility in triple-negative breast cancer through a feed-forward loop
Xiangyu Zeng, Fei Zhao, Xinyi Tu, Yong Zhang, Wen Yang, Jing Hou, Qi Jiang, Shouhai Zhu, Zheming Wu, Yalan Hao, Lingxin Zhang, Richard M. Weinshilboum, Kaixiong Tao, Liewei Wang, Zhenkun Lou
Xiangyu Zeng, Fei Zhao, Xinyi Tu, Yong Zhang, Wen Yang, Jing Hou, Qi Jiang, Shouhai Zhu, Zheming Wu, Yalan Hao, Lingxin Zhang, Richard M. Weinshilboum, Kaixiong Tao, Liewei Wang, Zhenkun Lou
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Research Article Oncology

Targeting MTAP increases PARP inhibitor susceptibility in triple-negative breast cancer through a feed-forward loop

Abstract

Triple-negative breast cancer (TNBC) represents the most malignant subtype of breast cancer. The clinical application of PARP inhibitors (PARPi) is limited by the low frequency of BRCA1/2 mutations in TNBC. Here, we identified that MTAP deletion sensitized genotoxic agents in our clinical cohort of metastatic TNBC. Further study demonstrated that MTAP deficiency or inhibition rendered TNBC susceptibility to chemotherapeutic agents, particularly PARPi. Mechanistically, targeting MTAP that synergized with PARPi by disrupting the METTL16-MAT2A axis involved in methionine metabolism and depleting in vivo s-adenosylmethionine (SAM) levels. Exhausted SAM in turn impaired PARPi-induced DNA damage repair through attenuation of MRE11 recruitment and end resection by diminishing MRE11 methylation. Notably, brain metastatic TNBC markedly benefited from a lower dose of PARPi and MTAP deficiency/inhibition synergy due to the inherently limited methionine environment in the brain. Collectively, our findings revealed a feed-forward loop between methionine metabolism and DNA repair through SAM, highlighting a therapeutic strategy of PARPi combined with MTAP deficiency/inhibition for TNBC.

Authors

Xiangyu Zeng, Fei Zhao, Xinyi Tu, Yong Zhang, Wen Yang, Jing Hou, Qi Jiang, Shouhai Zhu, Zheming Wu, Yalan Hao, Lingxin Zhang, Richard M. Weinshilboum, Kaixiong Tao, Liewei Wang, Zhenkun Lou

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Figure 8

Methionine restriction augments the combination efficacy of MTAP deficiency/inhibition and PARPi.

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Methionine restriction augments the combination efficacy of MTAP deficie...
(A) Representative Western blots showing levels of MAT2A in HCC70 cells treated with olaparib (2 μM), veliparib (2 μM), or methionine restriction (MR) (20%) or the indicated combinations. The experiment was repeated 3 times, and representative blots are presented. (BD) Intracellular SAM (B), SAM/SAH ratio (C), and colony formation assay (D) of HCC70 cells with or without MTAP deletion treated with olaparib, veliparib, or MR or the indicated combinations. (EG) Intracellular SAM (E), SAM/SAH ratio (F), and colony formation assay (G) of HCC70 cells treated with olaparib, veliparib, MTAPi, or MR or the indicated combinations. (BG) Data are shown as the mean ± SD from 3 independent experiments. P values are indicated. Significance was determined using (BG) 1-way ANOVA test.