Hepatoprotective activity of scopoletin, a constituent ofSolanum lyratum

Berry, M. N., Edward, A. M. and Barrit, G. J., High yield preparation of isolated hepatocytes from rat liver: In Burdon, R. H. and Knippenberg, P. H. (Eds.).Laboratory Techniques in Biochemistry and Molecular Biology, Elsevier, New York, vol. 21, pp. 15–18, 1991.

Berry, M. N. and Friend, D. S., High yield preparation of isolated rat liver parenchymal cells.J. Cell Biol., 43, 506–520 (1969).

Bohlmann, F. and Jakupovic, J., 8-Oxo-α-selinen und neue scopoletin-derivate aus Conyza-Arten.Phytochem., 18, 1367–1370 (1979).

Foti, M., Piattelli, M., Baratta, M. T. and Ruberto, G., Flavonoids, coumarins and cinnamic acids as antioxidants in a micellar system. Structure-activity relationship.J. Agric. Food Chem., 44, 497–501 (1996).

Fridovich, I., Biological effects of the superoxide radical.Arch. Biochem. Biophys., 247, 1–11 (1986).

Gerlach, U., Sorbitol dehydrogenase: In Bergmeyer, H. U. (Ed.),Methods of Enzymatic Analysis, Harper Press, New York, pp. 761–765, 1965.

Griffith, O. W., Determination of glutathione and glutathione disulfide using glutathione reductase and 2-vinylpyridine.Anal. Biochem., 106, 207–212 (1980).

Habig, W. H., Pabst, M. J. and Jakoby, W. B., Glutathione-S-transferases: The first enzymatic step in mercapturic acid function.J. Biol. Chem., 249, 7130–7139 (1974).

Jakoby, W. B., The GlutathioneS-transferases: A group of multifunctional detoxification proteins.Adv. Enzymol., 46, 383–414 (1978).

Kim, H. P., Kim, S. Y., Lee, E. J., Kim, Y. C. and Kim, Y. C., Zeaxanthin dipalmitate fromLycium chinense has hepatoprotective activity.Res. Comm. Mol. Pathol. Pharmacol., 90, 301–314 (1997).

Kiso, Y., Ogasawa, S., Hirota, K., Wanatabe, N., Oshima, Y. and Konno, C., Antihepatotoxic principles ofArtemisia capillaris buds.Planta Med., 50, 81–85 (1984)

Kiso, Y., Suzuki, Y. and Hikino, H., Assay methods for antihepatotoxic activity using carbon tetrachloride induced cytotoxicity in primary cultured hepatocytes.Planta Med., 49, 222–225 (1983).

Kleiman, H. K., Macoodwin, E. B., Rennard, S. and Hartin, G. R., Preparation of collagen substrates for cell attachment: Effect of collagen concentration and phosphate buffer.Anal. Biochem., 94, 308–312 (1979).

Kosuge, T., Yokota, M., Sugiyama, K., Yamamoto, T., Ni, M. Y., Yan, S. C., Studies on antitumor activities of Chinese herbs.Yakugaku Zasshi, 105, 791–795 (1985).

Lee, M. K., Choi, Y. J., Sung, S. H., Shin, D. I., Kim, J. W., and Kim, Y. C., Antihepatotoxic activity of icariin, a major constituent ofEpimedium koreanum.Planta Med., 61, 523–526 (1995).

Murakami, K., Ezima, H., Takaishi, Y., Takeda, Y., Fujita, T., Sato, A., Nagayama, Y. and Nohara, T., Studies on the constituents of Solanum plants. V.: The constituents ofS. lyratum Thumb. II.Chem. Pharm. Bull., 33, 67–73 (1985).

Murray, R.H.D., Mendez, J. and Brown, S. A.,The Natural Coumarins: Occurrence, Chemistry and Biochemistry. Wiley-Interscience publications, Chichester, 1982.

Reitman, S. and Frankel, S., Colorimetric methods for the determination of glutamic oxaloacetic and glutamic pyruvic transaminase.Am. J. Clin. Pathol., 28, 56–63 (1957).

Shim, K. H., Yang, H. S., Lee, T. W. and Choi, J. S., Studies on the chemical components and antioxidative effects ofSolanum lyratum Thunb.Korean. J. Pharmacogn., 26, 130–138 (1995).

Sung, S. H., Kwon, S. H., Cho, N. J. and Kim, Y. C., Hepatoprotective flavonol glycosides ofSaururus chinesis Herbs.Phytother. Res., 11, 500–503 (1997).

Yahara, S., Ohtsuka, M., Nakano, K. and Nohara, T., Studies on the constituents of solanaceous plants. XIII.: A new steroidal glucuronide from ChineseSolanum lyratum.Chem. Pharm. Bull., 37, 1802–1804 (1989).

Yoshihiko, O., Reevaluation of assay methods and establishment of kit for superoxide dismutase activity.Anal. Biochem., 142, 290–296 (1984).

Yu, S. M., Kim, H. J., Woo, E. R. and Park, H. K., Some sesquiterpenoids and 5α, 8β-epideoxysterols fromSolanum lyratum.Arch. Pharm. Res., 17, 1–4 (1994).