ATM deficiency promotes progression of CRPC by enhancing Warburg effect

Author:

Xu Lingfan12,Ma Enze3,Zeng Tao24,Zhao Ruya5,Tao Yulei2,Chen Xufeng2,Groth Jeff2,Liang Chaozhao1,Hu Hailiang26,Huang Jiaoti267

Affiliation:

1. 1Department of Urology, The First Affiliated Hospital of Anhui Medical University, Hefei, China

2. 2Department of Pathology, Duke University School of Medicine, Durham, North Carolina, USA

3. 3Department of Neuroscience, Duke University, Durham, North Carolina, USA

4. 4Department of Urology, Jiangxi Province People’s Hospital, Nanchang, China

5. 5Department of Dermatology, Duke School of Medicine, Durham, North Carolina, USA

6. 6Duke Cancer Institute, Duke University School of Medicine, Durham, North Carolina, USA

7. 7Department of Pharmacology and Cancer Biology, Duke University School of Medicine, Durham, North Carolina, USA

Abstract

ATM is a well-known master regulator of double strand break (DSB) DNA repair and the defective DNA repair has been therapeutically exploited to develop PARP inhibitors based on the synthetic lethality strategy. ATM mutation is found with increased prevalence in advanced metastatic castration-resistant prostate cancer (mCRPC). However, the molecular mechanisms underlying ATM mutation-driving disease progression are still largely unknown. Here, we report that ATM mutation contributes to the CRPC progression through a metabolic rather than DNA repair mechanism. We showed that ATM deficiency generated by CRISPR/Cas9 editing promoted CRPC cell proliferation and xenograft tumor growth. ATM deficiency altered cellular metabolism and enhanced Warburg effect in CRPC cells. We demonstrated that ATM deficiency shunted the glucose flux to aerobic glycolysis by upregulating LDHA expression, which generated more lactate and produced less mitochondrial ROS to promote CRPC cell growth. Inhibition of LDHA by siRNA or inhibitor FX11 generated less lactate and accumulated more ROS in ATM-deficient CRPC cells and therefore potentiated the cell death of ATM-deficient CRPC cells. These findings suggest a new therapeutic strategy for ATM-mutant CRPC patients by targeting LDHA-mediated glycolysis metabolism, which might be effective for the PARP inhibitor resistant mCRPC tumors.

Publisher

Bioscientifica

Subject

Cancer Research,Endocrinology,Oncology,Endocrinology, Diabetes and Metabolism

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