Accéder au contenu
Merck

Nuclear EGFR-PKM2 axis induces cancer stem cell-like characteristics in irradiation-resistant cells.

Cancer letters (2018-02-27)
Ying Shi, Na Liu, Weiwei Lai, Bin Yan, Ling Chen, Shouping Liu, Shuang Liu, Xiang Wang, Desheng Xiao, Xiaoli Liu, Chao Mao, Yiqun Jiang, Jiantao Jia, Yating Liu, Rui Yang, Ya Cao, Yongguang Tao
RÉSUMÉ

Radiation therapy has become an important tool in the treatment of cancer patients, but most patients relapse within 5 years. Relapse is due to the presence of cancer stem cells (CSCs), but the molecular mechanism of radioresistance in CSCs remains largely elusive. Here, we found that irradiation-resistant (IR) cells exhibited increased stem cell-like properties together with elevated anchorage-independent growth and metastasis ability. EGFR not only leads to increased acquisition of endometrial cancer stem cell markers in radioresistant sublines but is critical for the cancer stem-cell phenotype and tumorigenicity. Moreover, PKM2 functions as an interacting partner of EGFR, which induces the EMT phenotype and stem cell-like properties in IR cells. Finally, we found that the regulatory function of the EGFR-PKM2 axis is dependent on nuclear EGFR. In sum, our study indicated that EGFR and PKM2 directly interact and bind with each other to regulate the transcription of stemness-related genes and promote the stem-like phenotype, thus promoting invasion and metastasis.