Scientists Discover Novel Oncogenic Driver Gene in Human Lung Cancer (Biology)

A research team led by Prof. WANG Yuexiang from the Shanghai Institute of Nutrition and Health (SINH) of the Chinese Academy of Sciences discovered a novel oncogenic driver gene in human lung cancer, the leading cause of cancer-related mortality worldwide.  

Their findings were published in Journal of Experimental Medicine on June 18.     

Approximately 85% of all lung cancer cases are non-small cell lung cancers (NSCLCs). Although tyrosine kinase inhibitors and immunotherapy have contributed to survival benefits in some patients, the overall survival rates for NSCLCs remain low.  

Patients with NSCLC that are driven by KRAS mutations are often unresponsive to tyrosine kinase inhibitors and have a poor prognosis. Although inhibitors for the KRASG12C mutant have been approved to treat NSCLC patients, a general strategy that targets all KRASmutants remains elusive. 

Central precocious puberty (CPP) is largely caused by germline mutations inthe MKRN3 gene. Interestingly, CPP has been epidemiologically linked to various diseases in adulthood, including cancers. Cohorts of individuals with CPP show an increased risk of malignancies such as lung cancers.  

To investigate whether central precocious puberty-associated MKRN3 gene is mutated in human cancers, the research team led by Prof. WANG Yuexiang queried The Cancer Genome Atlas (TCGA) Pan-Cancer genomic data sets. Strikingly, MKRN3 is frequently mutated in NSCLCs. MKRN3 aberrations are significantly enriched in human NSCLC samples harboring oncogenic KRAS mutations.   

The researchers further presented genetic, functional, mouse models and mechanistic data that identify the central precocious puberty-associated gene MKRN3 gene as a bona fide tumor suppressor in NSCLC. They uncovered its tumor suppressing mechanism and highlighted MKRN3-PABPC1 axis deregulation as a key pathway in lung cancer oncogenesis.  

MKRN3 inactivation led to lung cancer proliferation and progression through PABPC1 ubiquitination mediated global protein synthesis. MKRN3 restoration in MKRN3-inactivated NSCLC suppressed tumor growth in nude mice. Therefore, molecular interventions targeting MKRN3 deficiency may have therapeutic potential for KRAS-mutant NSCLC treatment.     

These findings showed that biological mechanisms of central precocious puberty are relevant in tumorigenesis, which may help in developing anticancer drugs.     

This project was supported by the National Natural Science Foundation of China, Ministry of Science and Technology of China, Science and Technology Commission of Shanghai Municipality, and Chinese Academy of Sciences.  

Featured image: A model depicting how the MKRN3-PABPC1 axis controls cell proliferation and progression in lung cancer. (Image by WANG Yuexiang’s group)  


Reference: Ke Li, Xufen Zheng, Hua Tang, Yuan-Sheng Zang, Chunling Zeng, Xiaoxiao Liu, Yanying Shen, Yuzhi Pang, Simin Wang, Feifei Xie, Xiaojing Lu, Yuxiang Luo, Zhang Li, Wenbo Bi, Xiaona Jia, Tao Huang, Rongqiang Wei, Kenan Huang, Zihao Chen, Qingchen Zhu, Yi He, Miaoying Zhang, Zhizhan Gu, Yichuan Xiao, Xiaoyang Zhang, Jonathan A. Fletcher, Yuexiang Wang; E3 ligase MKRN3 is a tumor suppressor regulating PABPC1 ubiquitination in non–small cell lung cancer. J Exp Med 2 August 2021; 218 (8): e20210151. doi: https://doi.org/10.1084/jem.20210151


Provided by Chinese Academy of Sciences

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