gadd153, also known as chop, is a highly stress-inducible gene that is robustly expressed following disruption of homeostasis in the endoplasmic reticulum (ER) (so-called ER stress). Although all reported types of ER stress induce expression of Gadd153, its role in the stress response has remained largely undefined. Several studies have correlated Gadd153 expression with cell death, but a mechanistic link between Gadd153 and apoptosis has never been demonstrated. To address this issue we employed a cell model system in which Gadd153 is constitutively overexpressed, as well as two cell lines in which Gadd153 expression is conditional. In all cell lines, overexpression of Gadd153 sensitized cells to ER stress. Investigation of the mechanisms contributing to this effect revealed that elevated Gadd153 expression results in the down-regulation of Bcl2 expression, depletion of cellular glutathione, and exaggerated production of reactive oxygen species. Restoration of Bcl2 expression in Gadd153-overexpressing cells led to replenishment of glutathione and a reduction in levels of reactive oxygen species, and it protected cells from ER stress-induced cell death. We conclude that Gadd153 sensitizes cells to ER stress through mechanisms that involve down-regulation of Bcl2 and enhanced oxidant injury.
Phospholipase C-␥1 (PLC-␥1) is rapidly activated in response to growth factor stimulation and plays an important role in regulating cell proliferation and differentiation through the generation of the second messengers diacylglycerol and inositol 1,4,5-trisphosphate, leading to the activation of protein kinase C (PKC) and increased levels of intracellular calcium, respectively. Given the existing overlap between signaling pathways that are activated in response to oxidant injury and those involved in responding to proliferative stimuli, we investigated the role of PLC-␥1 during the cellular response to oxidative stress.
Age of host and transplantation-site microenvironment inf luence the tumorigenic potential of neoplastically transformed liver epithelial cells. Tumorigenic BAG2-GN6TF rat liver epithelial cells consistently form tumors at ectopic sites, but differentially express tumorigenicity or hepatocytic differentiation in the liver depending on host age and route of cell transplantation into the liver.
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