Abstract
Lung cancer development is often mediated through oxidative and inflammatory stresses caused by tobacco and environmental carcinogens, suggesting dysregulation of stress mediators might play a role during carcinogenesis. The p38 MAPK pathway is activated by multiple stress stimuli and inflammatory cytokines, and mediates a wide range of cellular processes in a context-specific manner. P38α, a member of the p38 family, is known to regulate the self-renewal and differentiation of adult lung stem cells. While p38α has been reported to mediate tumor suppressive or supportive roles in different cancers, inactivation of p38α in the lung epithelium is involved in KRASG12V induced tumorigenesis. However, whether p38α could be involved in regulating tumor initiating cells (TIC) of lung cancer remains unclear. To investigate this possibility, immunohistochemistry was first used to analyse the nuclear expression of phosphorylation-activated p38α (p-p38α) in 90 human primary lung adenocarcinomas. Results showed higher expression of p-p38α was significantly correlated with longer progression free and overall survivals, as well as a more differentiated tumor histological phenotype, indicating p38α might play a tumor suppressive role and drive tumor differentiation in lung cancer. To further address its functional role on lung TIC, p38α was suppressed by siRNA or pharmacologically inhibited by SB203580. This led to increase of the TIC subset that coexpresses ALDH and CD44 (ALDH+/CD44+-TIC), as well as up-regulated expression of the pluripotency genes SOX2, OCT4, and NANOG in lung cancer cell lines. Functionally, p38α inhibition by SB203580 promoted tumor spheres formation for two consecutive generations. NFAT is a family of transcription factors reported to regulate TIC in various cancers which are activated via de-phosphorylation leading to nuclear translocation. We hypothesize the TIC supportive function of p38α inhibition might be mediated through loss of phosphorylation and subsequent activation of NFATc4. In line with this hypothesis, we showed, using Western blot, p38α inhibition increased the expression of nuclear NFATc4. Moreover, NFATc4 knockdown led to suppressed sphere formation and pluripotency genes expression in lung cancer cell lines. Together, our results indicated p38α mediates a tumor suppressor pathway through downstream NFATc4 inactivation and TIC inhibition. The p38α -NFATc4 stress pathway might serve as a potential target for long term lung cancer treatment through TIC regulation.
Citation Format: Zhi-Jie Xiao, Jing Liu, Si-Qi Wang, Xu-Yuan Gao, Vicky Pui-Chi Tin, Maria Pik Wong. P38α suppresses tumor initiating cell phenotypes through inhibition of NFATc4 in non-small cell lung cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 2003.