Endothelial cells of cerebral capillaries forming the blood-brain barrier play an important role in the pathogenesis and therapy of Alzheimer’s disease. Amyloid-β peptides are key pathological elements in the development of this disease. Apigenin (4’,5,7-tetrahydroxyflavone) is a plant flavonoid and pharmacologically active agent that can be isolated from several plant species. In the present study, effects of apigenin obtained from the medicinal plant Elsholtzia rugulosa (Labiatae) on primary cultured rat cerebral microvascular endothelial cells (CMECs) mediated by amyloid-β peptide 25–35 (Aβ25–35) were examined. Aβ25–35 showed toxic effects on CMECs, involving reduction of cell viability, release of lactate dehydrogenase (LDH), increase of nuclear condensation, over-production of intracellular reactive oxygen species (ROS), decrease of superoxide dismutase (SOD) activity, and breakage of the barrier integrity and function. Based on this model, we demonstrated that apigenin from the medicinal plant Elsholtzia rugulosa protected cultured rat CMECs by increasing cell viability, reducing LDH release, relieving nuclear condensation, alleviating intracellular ROS generation, increasing SOD activity, and strengthening the barrier integrity through the preservation of transendothelial electrical resistance, permeability property and characteristic enzymatic activity after being exposed to Aβ25–35. In conclusion, apigenin isolated from Elsholtzia rugulosa has the ability to protect rat CMECs against Aβ25–35-induced toxicity.
Apoptosis Invasion Human hepatocellular carcinoma cells Hep G2 cells A B S T R A C T The effects of 80% ethanolic extract derived from commercial granule chlorella (GPE) on cell viability, invasion capacity and apoptosis in human hepatoma cell line (Hep G2 cells) were investigated. The results demonstrated that GPE decreased cell viability, induced apoptosis and showed invasion inhibitory effects in the Hep G2 cells. GPE-triggered apoptosis was confirmed by 4 0 -6-diamidino-2-phenyindole (DAPI) staining and comet assay. GPE promoted an increase of reactive oxygen species (ROS) and Ca 2+ , and loss of mitochondrial membrane potential (DWm) accompanied by cytochrome c release that was due to the decrease of Bcl-2 in the Hep G2 cells. GPE also induced the protein levels of apoptosisinducing factor (AIF), increased the levels of caspase-3, -8 and -9, and stimulated the levels of fatty acid synthase (Fas) and Fas ligand (FasL) in the Hep G2 cells. Additionally GPE inhibited invasion of Hep G2 cells by down-regulation of the expression of matrix metalloproteinase (MMP)-2 and -9. Furthermore, cellular glutathione content and superoxide dismutases (SOD) activities were significantly reduced and thiobarbituric acid-reactive substances (TBARS) levels were significantly increased after GPE treatment. These results suggest that GPE can induce cytotoxicity on Hep G2 cells and inhibit the invasive capacity of malignant cells.
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