Sanja Pavlica1, Rolf Gebhardt. 1. Institute of Biochemistry, Medical Faculty, University of Leipzig, 04103 Leipzig, Germany.
Abstract
AIMS: Recent interest has focused on plant antioxidants as potentially useful neuroprotective agents. In most studies only the genuine forms of flavonoids were used, although they are rapidly metabolized. Therefore, we have compared protective activities of two flavonoids (luteolin, quercetin) and two of their bioavailable metabolites (3,4-DHPAA and 3,4-DHT) against oxidative stress, induced by peroxides (t-BHP, H(2)O(2)) and iron (FeSO(4)), in neuronal PC12 cells. MAIN METHODS: We have measured their effect on the prevention of cell death (MTT assay), glutathione depletion (GSH assay), lipid peroxidation (MDA assay) and production of ROS (DCF assay). Differentiated PC12 cells were used as a model system of neuronal cells. The compounds (concentration range 6-25 micromol/L) were tested in preincubation and coincubation experiments. KEY FINDINGS: In MTT and DCF assays all tested compounds showed excellent protection. When cells were exposed to peroxides, both metabolites increased GSH levels less efficiently than their parent flavonoids in both types of incubations. Following exposure to iron, only coincubation significantly prevented GSH depletion and the metabolites surprisingly mimicked the suppressive effect of flavonoids. MDA levels induced by all stressors were reduced more potently during coincubation than during preincubation with polyphenols. While the lipophilic metabolite 3,4-DHT exerted excellent antilipoperoxidant activity, the hydrophilic metabolite 3,4-DHPAA was less effective. SIGNIFICANCE: These results demonstrate that most of the protective effects of flavonoids against oxidative stress in PC12 cells are continued despite biodegradation of the parent flavonoids. In general, the lipophilic metabolite 3,4-DHT was more active than the hydrophilic 3,4-DHPAA. Copyright 2009 Elsevier Inc. All rights reserved.
AIMS: Recent interest has focused on plant antioxidants as potentially useful neuroprotective agents. In most studies only the genuine forms of flavonoids were used, although they are rapidly metabolized. Therefore, we have compared protective activities of two flavonoids (luteolin, quercetin) and two of their bioavailable metabolites (3,4-DHPAA and 3,4-DHT) against oxidative stress, induced by peroxides (t-BHP, H(2)O(2)) and iron (FeSO(4)), in neuronal PC12 cells. MAIN METHODS: We have measured their effect on the prevention of cell death (MTT assay), glutathione depletion (GSH assay), lipid peroxidation (MDA assay) and production of ROS (DCF assay). Differentiated PC12 cells were used as a model system of neuronal cells. The compounds (concentration range 6-25 micromol/L) were tested in preincubation and coincubation experiments. KEY FINDINGS: In MTT and DCF assays all tested compounds showed excellent protection. When cells were exposed to peroxides, both metabolites increased GSH levels less efficiently than their parent flavonoids in both types of incubations. Following exposure to iron, only coincubation significantly prevented GSH depletion and the metabolites surprisingly mimicked the suppressive effect of flavonoids. MDA levels induced by all stressors were reduced more potently during coincubation than during preincubation with polyphenols. While the lipophilic metabolite 3,4-DHT exerted excellent antilipoperoxidant activity, the hydrophilic metabolite 3,4-DHPAA was less effective. SIGNIFICANCE: These results demonstrate that most of the protective effects of flavonoids against oxidative stress in PC12 cells are continued despite biodegradation of the parent flavonoids. In general, the lipophilic metabolite 3,4-DHT was more active than the hydrophilic 3,4-DHPAA. Copyright 2009 Elsevier Inc. All rights reserved.
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