Background/Aims: To evaluate the antioxidant, immunomodulatory, antinecrotic and antifibrotic effects of hesperidin on CCl4-induced cirrhosis. Methods: Liver damage was produced by giving CCl4 injections (0.4 g/kg, i.p., 3 times per week for 8 weeks) to rats. Hesperidin (200 mg/kg) was administered using gavage. The expression of nuclear factor-γB (NF-γB), transforming growth factor-ß (TGF-ß), connective tissue growth factor (CTGF), interleukin (IL)-10 and IL-1ß was assessed using Western blotting. Alanine aminotransferase (ALT) and γ-glutamyl transpeptidase (γ-GTP) serum activities, glycogen content, reduced/oxidised glutathione (GSH/GSSG) ratio, lipid peroxidation degree and fibrosis (using hydroxyproline content and a histopathological analysis) were measured. Results: CCl4 increased the enzymatic activities of ALT and γ-GTP, liver lipid peroxidation, the hydroxyproline content as well as NF-γB, TGF-ß, CTGF, IL-1ß and IL-10 levels and decreased the glycogen content and GSH/GSSG ratio. Hesperidin significantly decreased the modifications produced by CCl4, except in the case of IL-10, which was further increased by the flavone. The group receiving hesperidin alone showed decreases in lipid peroxidation, NF-γB, TGF-ß, CTGF and IL-1ß and an increase in IL-10. The results of the histopathological analysis were in agreement with the biochemical and molecular findings. Conclusions: This study demonstrates that hesperidin prevents experimental necrosis and fibrosis. The action mechanism of hesperidin is associated with its ability to reduce oxidative stress and modulate proinflammatory and profibrotic signals. These results support earlier findings demonstrating the beneficial effect of hesperidin against liver damage.
Several nitrogen fixing consortia (NFC) were isolated from kerosene contaminated soil, where Phaseolus vulgaris plants were being cultivated. The capability of these consortia for kerosene hydrocarbons removal was investigated and demonstrated. The NFC cultivated under aerobic conditions, and kerosene as sole carbon source, effected a maximum of 75% of reduction of the total kerosene hydrocarbons. Also, from experiments conducted to evaluate their atmospheric nitrogen fixing capability, all consortia showed nitrogenase activity: from 4 to 183 nmol N2/3E09 bacteria.day. To our knowledge, this is the first report that shows a group of bacteria with the dual characteristic of fixing atmospheric nitrogen and capability to use kerosene hydrocarbons as a sole carbon source. Application of these microorganisms to soil bioremediation processes is discussed.
The title compound, C16H19NO5, crystallizes as a centrosymmetric dimer through strong O-H...O hydrogen-bonding interactions between the hydroxyphenyl and morpholinocarbonyl groups. The morpholinocarbonyl group is almost perpendicular to the propenoate moiety. Electron delocalization in the N-C(=O) fragment leads to the formation of hydrogen-bonded S(5) ring motifs through C-H...O interactions.
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