Head and neck squamous cell carcinomas (HNSCCs) harbor a subset of cells that are CD44(+) and present with malignancy and radiotherapy resistance. As a key regulator of self-renewal, Nanog expression not only determines cell fate in pluripotent cells but also mediates tumorigenesis in cancer cells; thus, we examined the role of Nanog in CD44 (+) HNSCC. Three HNSCC cell lines, tumor xenografts, and patient tumors were examined. Nanog levels were significantly higher in CD44(+) HNSCC spheroids than in CD44(−) spheroids, and further increased when grown as spheroids to enrich for CSCs. CD44(+) spheroids showed a 3.4-7.5-fold increase in migration and invasion compared with CD44(−) spheroids and were resistant to radiation therapy, which was reversed by inhibiting Nanog. Nanog knockdown also decreased spheroid formation by 66.5-68.8%. Moreover, a phosphokinase array identified upregulated ERK1/2 signaling in CD44(+) HNSCC cells compared with that in CD44(−) cells. ERK1/2 signaling was found to regulate Nanog expression, aiding tumor progression, metastasis, and radiotherapy resistance. In xenograft models, the combination of radiation and Nanog or ERK1/2 inhibition inhibited tumor growth by 75.6% and 79.1%, respectively. In lung metastasis models, CD44(+) cells injected into the tail vein of mice led to significantly more lung metastases and higher Nanog expression level compared with that by ERK1/2-knockdown CD44(+) cells. Finally, in tumor tissues, CD44 and Nanog expression levels were correlated with tumorigenesis in HNSCC patients. Thus, targeting Nanog and the ERK1/2 signaling pathway may prevent or reverse CSC phenotypes and epithelial-mesenchymal transition that drive tumor progression, metastasis, and radiotherapy resistance in HNSCC.
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