The role of S-nitrosylation of PFKM in regulation of glycolysis in ovarian cancer cells

被引:0
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作者
Wenwen Gao
Mengqiu Huang
Xi Chen
Jianping Chen
Zhiwei Zou
Linlin Li
Kaiyuan Ji
Zhirui Nie
Bingsheng Yang
Zibo Wei
Pengfei Xu
Junshuang Jia
Qianbing Zhang
Hongfen Shen
Qianli Wang
Keyi Li
Lingqun Zhu
Meng Wang
Shuangyan Ye
Sisi Zeng
Ying Lin
Zhili Rong
Yang Xu
Peng Zhu
Hui Zhang
Bingtao Hao
Qiuzhen Liu
机构
[1] Southern Medical University,Cancer Research Institute, Guangdong Provincial Key Laboratory of Cancer Immunotherapy, Guangzhou Key Laboratory of Tumor Immunology Research, School of Basic Medical Sciences
[2] Southern Medical University,Southern Hospital Zengcheng Branch
[3] Zhengzhou University,First Affiliated Hospital of Zhengzhou University
[4] Guangzhou Panyu Central Hospital,Pearl River Hospital
[5] Southern Medical University,Henan Cancer Hospital
[6] Zhengzhou University,The Eighth Affiliated Hospital
[7] Guangzhou Concord Cancer Center,School of Biomedical and Pharmaceutical Sciences
[8] Sun Yat-sen University,Metabolic Innovation Center, Zhongshan School of Medicine
[9] Central Lab of Shenzhen Pingshan People’s Hospital,Platform of Metabolomics, Center for Precision Medicine
[10] Guangdong University of Technology,Medical Genetic Institute of Henan Province, Henan Provincial Key Laboratory of Genetic Diseases and Functional Genoics, Henan Provincial People’s Hospital Zhengzhou University People’s Hospital
[11] Sun Yat-sen University,Pingshan General Hospital of Southern Medical University
[12] Sun Yat-sen University,undefined
[13] Henan University People’s Hospital,undefined
[14] Southern Medical University,undefined
来源
Cell Death & Disease | / 12卷
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摘要
One of the malignant transformation hallmarks is metabolism reprogramming, which plays a critical role in the biosynthetic needs of unchecked proliferation, abrogating cell death programs, and immunologic escape. However, the mechanism of the metabolic switch is not fully understood. Here, we found that the S-nitrosoproteomic profile of endogenous nitrogen oxide in ovarian cancer cells targeted multiple components in metabolism processes. Phosphofructokinase (PFKM), one of the most important regulatory enzymes of glycolysis, was S-nitrosylated by nitric oxide synthase NOS1 at Cys351. S-nitrosylation at Cys351 stabilized the tetramer of PFKM, leading to resist negative feedback of downstream metabolic intermediates. The PFKM-C351S mutation decreased the proliferation rate of cultured cancer cells, and reduced tumor growth and metastasis in the mouse xenograft model. These findings indicated that S-nitrosylation at Cys351 of PFKM by NOS1 contributes to the metabolic reprogramming of ovarian cancer cells, highlighting a critical role of endogenous nitrogen oxide on metabolism regulations in tumor progression.
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