Endoplasmic reticulum stress-dependent regulation of carboxypeptidase E expression in glioblastoma cells

Abstract Objective. Carboxypeptidase E (CPE) plays an important role in the biosynthesis of neurotransmitters and peptide hormones including insulin. It also promotes cell proliferation, survival, and invasion of tumor cells. The endoplasmic reticulum stress, hypoxia, and nutrient supply are significant factors of malignant tumor growth including glioblastoma. There are data indicating that the knockdown of the endoplasmic reticulum to nucleus signaling 1 (ERN1) suppressed glioblastoma cell proliferation and increased invasiveness of these cells. The present study aims to investigate the regulation of the CPE gene in U87MG glioblastoma cells by ERN1 knockdown, hypoxia, and glucose or glutamine deprivations with the intent to reveal the role of ERN1 signaling in the regulation of this gene expression and function in tumorigenesis. Methods. Human glioblastoma cells U87MG (transfected by an empty vector; control) and ERN1 knockdown cells with inhibited ERN1 endoribonuclease and protein kinase (dnERN1) or only ERN1 endoribonuclease (dnrERN1) were used. Hypoxia was introduced by dimethyloxalylglycine; for glucose and glutamine deprivations, the cells were cultured in DMEM medium without glucose or glutamine for 16 h, respectively. The expression level of the CPE gene was studied by quantitative RT-PCR and normalized to ACTB. Results. It was found that inhibition of endoribonuclease and protein kinase activities of ERN1 led to a strong up-regulation of CPE gene expression in glioblastoma cells. The expression of this gene also increased in glioblastoma cells after silencing ERN1. At the same time, the expression of this gene did not significantly change in cells with inhibited ERN1 endoribonuclease only. The expression of the CPE gene was resistant to hypoxia in control U87MG cells, but increased in cells with ERN1 knockdown. The expression of this gene was up-regulated under glutamine deprivation in control glioblastoma cells, but decreased upon ERN1 knockdown. However, glucose deprivation decreased the expression of CPE gene in both types of used cells, but ERN1 inhibition enhanced this effect. Conclusion. The results of the present study demonstrate that inhibition of ERN1 strongly up-regulated the expression of pro-oncogenic CPE gene through protein kinase activity of ERN1 and that increased CPE gene expression possibly participates in ERN1 knockdown-mediated invasiveness of glioblastoma cells.