RESUMO
Metabolic syndrome is associated with obesity, insulin resistance, and the risk of cancer. We tested whether oncogenic transcription factor c-JUN metabolically reprogrammed cells to induce obesity and cancer by reduction of glucose uptake, with promotion of the stemness phenotype leading to malignant transformation. Liquid alcohol, high-cholesterol, fat diet (HCFD), and isocaloric dextrin were fed to wild-type or experimental mice for 12 months to promote hepatocellular carcinoma (HCC). We demonstrated 40% of mice developed liver tumors after chronic HCFD feeding. Disruption of liver-specific c-Jun reduced tumor incidence 4-fold and improved insulin sensitivity. Overexpression of c-JUN downregulated RICTOR transcription, leading to inhibition of the mTORC2/AKT and glycolysis pathways. c-JUN inhibited GLUT1, 2, and 3 transactivation to suppress glucose uptake. Silencing of RICTOR or c-JUN overexpression promoted self-renewal ability. Taken together, c-JUN inhibited mTORC2 via RICTOR downregulation and inhibited glucose uptake via downregulation of glucose intake, leading to self-renewal and obesity.
RESUMO
Large protein complexes form in the cytosol of prokaryotes and eukaryotes as assemblies of functional enzymes or aggregates of misfolded proteins. Their roles in the cell range from critical components of metabolism to disease-causing agents. We have observed a novel structure in the cells of transgenic Arabidopsis thaliana that appears to be a form of inclusion body. These long, spindle-shaped structures form when Arabidopsis are transformed to express high levels of the protein Annexin4 fused to a fluorescent protein. These structures, previously named darts, are visible in all cells of the plant throughout development. Darts take on a variety of morphologies including rings and figure-eights. These structures are not associated with the endomembrane system and are not membrane bounded. Darts appear to be insoluble aggregates of protein analogous to bacterial inclusion bodies and eukaryotic aggresomes. Similar structures have not been observed in untransformed plants, suggesting darts are artifacts of transgenic overexpression.