To elucidate mechanisms of endothelial cell (EC) dysfunction in CNS inflammatory responses and beneficial effects of interferon-beta (IFN-gamma) in multiple sclerosis (MS), we analyzed effects of individual and combinations of soluble inflammatory mediators on the intracellular localization of the EC tight junction-associated molecules zonula occludens-1 and -2 (ZO-1 and ZO-2) in human brain ECs. The cytoplasm in the majority of cells in control EC cultures was clear; ZO-1 and ZO-2 were localized peripherally near sites of cell contact and associated with submembranous cytoplasmic filaments. H2O2 induced reversible time- and concentration-dependent translocation of ZO-1 and ZO-2 to a random distribution within EC cytoplasm and retraction of EC borders. For low concentrations, these effects were accompanied by less prominent submembranous filaments but not by evidence of cytotoxicity, increased cell death or altered amounts of ZO-1. Tumor necrosis factor-beta induced similar alterations but interferon-y did not. Co-treatment with either cytokine increased H2O2 effects whereas IFN-beta reversed H2O2-induced effects. In control white matter samples, EC cytoplasm was clear and ZO-1 was located on cell borders. In inflammatory/demyelinating lesions, EC ZO-1 was diffuse, indicating that the alterations induced in vitro mimic those in active MS lesions. These findings suggest that in MS patients, IFN-beta treatment may counteract inflammatory mediator effects on CNS EC tight junction molecules, thereby preserving EC barrier function.
Presence of increased reactive oxygen species (ROS) has been observed in most high risk factors for brain tumor development. Our past study demonstrated that ROS could induce increased brain tumor cell proliferation. Growth effects of ROS may involve modifications of cellular proteins such as mitogen-activated protein kinases (MAPKs), which regulate cell proliferation. Here, we report effects of a ROS (hydrogen peroxide, H2O2) and an antioxidant (N-acetylcysteine, NAC) on MAPK activation in astrocytoma (U373-MG) cells. MAPKs are activated by phosphorylation that can be detected by Western blot analysis. The unphosphorylated/inactivated form of MAPK exhibits slower mobility on SDS-PAGE compared to the phosphorylated/activated form. Densitometric analysis was used to measure MAPK activation. Results indicate that H2O2 caused a dose and time-dependent increase in MAPK activation in astrocytoma cells. Furthermore, ROS-induced activation was almost completely suppressed by NAC. NAC also inhibited serum-induced MAPK activation indicating there may be an oxidant-sensitive component to serum-induced growth signaling. Modifications of MAPKs by H2O2 demonstrate that ROS-induced proliferation is via biochemical pathways similar to other known growth stimuli. Understanding of processes that link a proliferation signal (ROS) to cell proliferation can aid in the selection of therapy used to suppress brain tumor growth.
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