Abstract
AbstractEpidermal growth factor receptor (EGFR) is highly expressed in several types of cancer cells including oral squamous cell carcinoma (OSCC). EGF/EGFR signaling is recognized as an important molecular target in cancer therapy. However, cancer cells often become tolerant to EGF/EGFR signaling-targeted therapies. In the tumor microenvironment, the tumor incites inflammation and the inflammation-derived cytokines make a considerable impact on cancer development. In addition, hyperosmolarity is also induced, but the role of osmotic stress in cancer development has not been fully understood. This study demonstrates molecular insights into hyperosmolarity effect on OSCC development and shows that NFAT5 transcription factor plays an important functional role in enhancing the oral cancer cell proliferation by inducing the EGFR translocation from the endoplasmic reticulum to the plasma membrane through increase the expression of DPAGT1, an essential enzyme for catalyzing the first committed step of N-linked protein glycosylation. These results suggest that hyperosmolarity-induced intra-nuclear translocation of NFAT5 essential for DPAGT1 activation and EGFR subcellular translocation responsible for OSCC tumor progression.This study demonstrates that NFAT5 promotes oral squamous cell carcinoma progression in the hyperosmotic environment through increased expression of DPAGT1, an essential enzyme for protein glycosylation, and altered EGFR subcellular localization from the cytoplasm to the plasma membrane in tumor cells.
Highlights
Epidermal growth factor receptor (EGFR) is highly expressed in several carcinomas including oral squamous cell carcinomas (OSCC)
Immunofluorescent cytochemical staining revealed that EGFR was largely located in the plasma membrane when cells were cultured in a high glucose (HG) medium (Fig. 1a(a))
Cancer cells are exposed to starvation, hypoxia and solid stress, and these factors impact on cancer progression [18,19,20,21]
Summary
The aim of this study was to determine NFAT5 expression in the hyperosmotic OSCC tumor microenvironment and show how NFAT5 affected OSCC cell behavior, such as tumor progression
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