Study of carbohydrate metabolism in selected tissues of freshwater mussel, Lamellidens marginalis under copper sulphate toxicity.

Sublethal toxicity of copper sulphate on carbohydrate metabolism was studied in selected tissues of freshwater mussel, Lamellidens marginalis. Levels of glycogen and pyruvic acid decreased while lactic acid showed an increase. Activities of LDH, SDH and MDH decreased while G-6-PDH activity increased. There appears to be a shift in the carbohydrate metabolism from aerobic to anaerobic type due to toxicity of copper.

Effects of elicitor and copper sulfate on grindelic acid production in submerged cultures of Grindelia pulchella

Grindelia pulchella callus and cell suspension cultures were established from seedling leaves. When several phytoregulator supplementations were assayed in solid Murashige and Skoog medium containing 3 percent (w/v) of sucrose (MS medium), combinations of indole-3-butyric acid (IBA) and N6-benzylaminopurine (BA) resulted the most appropriate conditions to generate fast growing friable calli with detectable levels of grindelic acid. Moreover, the same basal media supplemented with 20.0 µM IBA/4.4 µM BA was found to be optimal for cell growth in submerged cultures (µmax = 0.26 days-1) while the addition of 20.0 µM IBA/18.0 µM BA resulted in a relative higher metabolite production (4.55 mg/gDW) when the inocula was 5 percent (v/v). Furthermore, three different stress factors and combinations of them were used to elicit cell suspensions. These experiments demonstrated that the combination of CuSO4 and dimethylsulfoxide (DMSO) increase the grindelic acid production to 2.63 mg/gDW in the elicited essay versus 0.756 mg/gDW in the control, at expense of cell growth. In contrast, the addition of jasmonic acid (JA) alone and combined with DMSO neither affected cell growth nor grindelic acid accumulation.

Oxidation-dependent effects of oxidized LDL: proliferation or cell death

Oxidized low-density lipoprotein (oxLDL) induces a wide range of cellular responses to produce atherosclerotic lesion, but key factors determining the response are not understood. In this study, purified LDL was oxidized with copper sulfate, and its physical properties and the related biological responses were investigated. The average hydrodynamic diameter of the lightly oxidized LDL was approximately 25 nm and its Rf value relative to nLDL on agarose gel was between 1.0 and 1.25. The diameter of the extensively oxidized LDL was over 30 nm, the Rf value was over 2.0. A 24 h-exposure of resting RAW264.7 macrophage cells to 100 microg/ml of the lightly oxidized LDL induced proliferation and macrophage activation whereas the extensively oxidized LDL induced cell death at the same concentration. In contrast, 200 microg/ml of oxLDL caused cell death regardless of oxidation degree. Short incubation (4-6 h) of the highly oxidized LDL (100 microg/ml) also resulted in cell proliferation. OxLDL-induced cell death showed mixed characteristics of apoptosis and/or necrosis depending on the strength and duration of the insult. These results suggest that cellular responses induced by oxLDL be dependent on the oxidation degree, the duration of exposure, and the concentration of oxLDL. Copyright 2000 Academic Press.