• Korean Journal of Pharmacognosy
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• v.27 no.2
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• pp.101-104
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• 1996

Hydrogen peroxide is one of major chemicals mediating antitumor and antimicrobial activities of macrophages. We searched natural products enhancing hydrogen peroxide generation from murine macrophage-like cell line J774. Among 21 methanol extracts of Korean medicinal plants, the extract from Cornus officinalis was the most effective. The active component from the fractions was searched by activity guided fractionation, and identified as ursolic acid by spectral data.

• The Korean Journal of Physiology
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• v.29 no.1
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• pp.1-11
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• 1995

Alveolar macrophages play a pivotal role in the pathogenesis of silicosis since the macrophages may release a wide variety of toxic and inflammatory mediators as well as mitogenic growth factors. In the present study, the effects of in vitro exposure to silica on release of various mediator such as reactive oxygen species, platelet activating factor(PAF), and interleukin-1 (IL-1) by alveolar macrophages were examined. First, hydrogen peroxide release from alveolar macrophages was monitored by measuring the change in fluorescence of scopoletin in the absence or presence of graded concentration of silica. Significantly enhanced release of hydrogen peroxide was observed at 0.5 mg/ml and above. A maximal enhancement of 10 fold above control was observed at 5 mg/ml silica. Similarly, in vitro exposure to silica also significantly stimulated the generation of chemiluminescence from alveolar macrophages at 0.5 mg/ml and above with n maximal enhancement of 8 fold at 5 mg/ml silica. Second, PAF release from alveolar macrophages after 30 min incubation at $37^{\circ}C$ in absence or presence of zymosan and silica was determined by measuring $^{3}H-serotonin$ release ability of the conditioned macrophage supernates from platelets. 5 mg/ml zymosan as a positive control fur the PAF assay increased PAF release by 19 % of total serotonin release. Furthermore, silica also resulted in significant enhancement of the PAF release compared with that in unstimulated (control) cells, i.e., $17.7{\pm}5.8%$ and $24.0{\pm}4.9%$ of total serotonin release at 5 mg/ml and 10 mg/ml silica, respectively, which represents the release of nanomole levels of PAF. Lastly, IL-1 production by alveolar macrophages was analysed following their stimulation with lipopolysaccharide (LPS) and silica by their capacity to stimulate thymocyte proliferation. $10\;{\mu}g/ml$ LPS resulted in an 11 fold increase in IL-1 production. In comparison, $50\;{\mu}g/ml$ silica resulted in a 4 fold increase in IL-1 release. These data indicate that in vitro exposure of alveolar macrophages to silica activates the release of various bioactive mediators such as reactive oxygen species, PAF and IL-1 which thus contribute to amplification of inflammatory reactions and regulation of fibrotic responses by the lung after inhalation of silica.

• Journal of Korean Society of Environmental Engineers
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• v.27 no.10
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• pp.1108-1113
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• 2005

Advanced oxidation process involving $O_3/H_2O_2$ was used to eliminate 1,4-dioxane and to enhance the biodegradability of dioxane-contaminated water. Oxidation process was carried out in a bubble column reactor under different pH and $H_2O_2$ concentrations. The removal efficiencies of 1,4-dioxane were investigated at hydrogen peroxide concentration between 40 and 120 mg/L. At the same pH, removal efficiencies of 1,4-dioxane increased with increasing initial $H_2O_2$ concentration. There was a linear relationship between initial concentration of $H_2O_2$ and the amount of consumed $O_3$. It was observed that the high $H_2O_2$ concentration accelerated the generation of hydroperoxy ions(${HO_2}^-$) and hydroxyl radicals($OH{\cdot}$). Hydrogen peroxide enhanced the decomposition of 1,4-dioxane and the biodegradability of the solution.

• Korean Journal of Veterinary Research
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• v.34 no.4
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• pp.857-866
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• 1994

The present study was undertaken to examine the effects of obioactin, lonomycin A, and MDP on toxoplasmacidal activities in glycogen-induced mouse peritoneal macrophages. The killing effect of obioactin on Toxoplasma multiplication was increased significantly in proportion to its concentrations. $O_2{^-}$ generation in obioactin-treated macrophages was also increased from twofold to threefold when compared with that of untreated control. Similarly, $H_2O_2$ continued to rise in parallel with increase of the concentration of obioactin. Lonomycin A-treated macrophages also exhibited a good effect of dose-response on toxoplasmacidal activities. However, $O_2{^-}$ and $H_2O_2$ were not generated significantly in lonomycin A-treated macrophages. Macrophages treated with muramyl dipeptide (MDP) were not found to inhibit the prolifi:ration of Toxoplasma but showed the enhancement of $O_2{^-}$ and $H_2O_2$, generation. The released lysozyme levels from macrophages into cultured media were decreased tn dose-dependent fashion by in vitro treatment of obioactin, lonomycin A, and MDP. The intracellular lysozyme levels appeared to be a constant value regardless of increasing the concentrations of obioactin, lonomycin A, and MDP. Therefore, these results suggest that Toxoplasma multiplication within macrophages treated with obioactin was inhibited by the generation of $O_2{^-}$ and $H_2O_2$ and that lysozyme per se within or released from macrophages had no effect on toxoplasmacidal activity.