Much evidence has suggested that the superoxide generated by xanthine oxidase (XOD) within the endothelial cell triggers characteristic free-radical-mediated tissue injuries. Although it has been reported that XOD exists not only in the cytoplasm, but also on the outside surface of the endothelial cell membrane, it is not clear how XOD localizes on the outside of the plasma membrane. Purified human xanthine oxidase (h-XOD) had an affinity for heparin-Sepharose. The binding was largely independent of the pH over the physiological range, whereas it tended to increase at lower pH and to decrease at higher pH. Exposure of h-XOD to the lysine-specific reagent trinitrobenzenesulphonic acid or the arginine-specific reagent phenylglyoxal caused it to lose its affinity for heparin-Sepharose. The binding of h-XOD to heparin is apparently of electrostatic nature, and both lysine and arginine residues are involved in the binding. h-XOD was found to bind to cultured porcine aortic endothelial cells, and this binding was inhibited by the addition of heparin or pretreatment of the cells with heparinase and/or heparitinase. Intravenous injection of heparin into two healthy persons led to a prompt increase in plasma h-XOD concentration. These results suggest that XOD localizes on the outside surface of endothelial cells by association with polysaccharide chains of heparin-like proteoglycans on the endothelial-cell membranes. Superoxide extracellularly generated by XOD may injure the source-endothelial-cell membrane and also attract and activate closely appositional neutrophils, which themselves actually cause progressive oxidative damage.
EC-SOD overexpression to the lung ameliorated MCT-induced PH in rats. We suggest that EC-SOD may act as an antioxidant in PH and that increased oxidative stress may be important in the pathogenesis of MCT-induced PH.
Rheumatoid arthritis (RA) is characterized by massive synovial proliferation, angiogenesis, subintimal infiltration of inflammatory cells and the production of cytokines such as TNF-α and IL-6. Allograft inflammatory factor-1 (AIF-1) has been identified in chronic rejection of rat cardiac allografts as well as tissue inflammation in various autoimmune diseases. AIF-1 is thought to play an important role in chronic immune inflammatory processes, especially those involving macrophages. In the current work, we examined the expression of AIF-1 in synovial tissues and measured AIF-1 in synovial fluid (SF) derived from patients with either RA or osteoarthritis (OA). We also examined the proliferation of synovial cells and induction of IL-6 following AIF-1 stimulation. Immunohistochemical staining showed that AIF-1 was strongly expressed in infiltrating mononuclear cells and synovial fibroblasts in RA compared with OA. Western blot analysis and semiquantitative RT-PCR analysis demonstrated that synovial expression of AIF-1 in RA was significantly greater than the expression in OA. AIF-1 induced the proliferation of cultured synovial cells in a dose-dependent manner and increased the IL-6 production of synovial fibroblasts and PBMC. The levels of AIF-1 protein were higher in synovial fluid from patients with RA compared with patients with OA (p < 0.05). Furthermore, the concentration of AIF-1 significantly correlated with the IL-6 concentration (r = 0.618, p < 0.01). These findings suggest that AIF-1 is closely associated with the pathogenesis of RA and is a novel member of the cytokine network involved in the immunological processes underlying RA.
Propolis, a natural product collected from plants by honey bees, is commonly used in folk medicines. Endoplasmic reticulum (ER) stress is known to induce apoptosis through the induction of CCAAT/enhancer-binding protein homologous protein (CHOP). Here, we investigated whether ethanol extracts of propolis and caffeic acid phenethyl ester (CAPE) induce apoptosis, mitochondrial dysfunction, and ER stress in human breast cancer MCF-7 cells and human fibroblasts. Among several ethanol extracts of propolis and CAPE, Brazilian red propolis (BRP) significantly reduced MCF-7 cell viability through the induction of mitochondrial dysfunction, caspase-3 activity, and DNA fragmentation but did not affect those of fibroblasts. Moreover, treatment with BRP significantly induced CHOP expression in MCF-7 cells compared to fibroblasts. Further, pretreatment with a chemical chaperone, 4-phenylbutyric acid, suppressed BRP-triggered MCF-7 cell death. Overall, we revealed that an ethanol extract of BRP induces MCF-7 cell apoptosis through, at least in part, ER stress-related signaling.
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