Cholangiocarcinoma (CCA) is a lethal cancer in that the incidence is now increasing worldwide. N-acetylgalactosaminyltransferase 5 (GALNT5), an enzyme that initiates the first step of mucin type-O glycosylation, has been reported to promote aggressiveness of CCA cells via the epithelial to the mesenchymal transition (EMT) process, and Akt/Erk activation. In this study, the clinical and biological relevance of GALNT5 and the molecular mechanisms by which GALNT5 modulated EGFR in promoting CCA progression were examined. Using publicly available datasets, upregulation of GALNT5 in patient CCA tissues and its correlation with EGFR expression was noted. High levels of GALNT5 were significantly associated with the short survival of patients, suggesting a prognostic marker of GALNT5 for CCA. GALNT5 modulated EGFR expression as shown in CCA cell lines. Upregulation of GALNT5 significantly increased EGFR mRNA and protein in GALNT5 overexpressing cells, whereas suppression of GALNT5 expression gave the opposite results. The molecular dynamics simulations and MM/PB(GB)SA-based free energy calculations showed that O-glycosylation on the EGFR extracellular domain enhanced the structural stability, compactness, and H-bond formation of the EGF/GalNAc-EGFR complex compared with those of EGF/EGFR. This stabilized the growth factor binding site and fostered stronger interactions between EGF and EGFR. Using the EGF-induced EGFR activation model, GALNT5 was shown to mediate EGFR stability via a decreased rate of EGFR degradation and enhanced EGFR activity by increasing the binding affinity of EGF/EGFR that consequently increasing the activation of EGFR and its downstream effectors Akt and Erk. In summary, GALNT5 was upregulated in CCA tissues and associated with a worse prognosis. The study identified for the first time the impacts of GALNT5 on EGFR activity by increasing: 1) EGFR expression via a transcriptional-dependent mechanism, 2) EGFR stability by reducing EGFR degradation, and 3) EGFR activation through an increased binding affinity of EGF/EGFR which all together fostered the activation of EGFR. These results expanded the understanding of the molecular mechanism of how GALNT5 impacted CCA progression and suggested GALNT5 as a new target for therapeutic intervention against metastatic CCA.
Keywords: EGFR activation; EGFR stability; EGFR synthesis; GALNT5; O-GalNAcylation; O-glycosylation; biliary tract cancer; glycosyltransferase.
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