Browse > Article

Activation of Murine Macrophage Cell Line RAW 264.7 by Korean Propolis  

Han, Shin-Ha (Department of Pharmacy, Sahmyook University)
Sung, Ki-Hyun (Department of Pharmacy, Sahmyook University)
Yim, Dong-Sool (Department of Pharmacy, Sahmyook University)
Lee, Sook-Yeon (Department of Pharmacy, Sahmyook University)
Cho, Kyung-Hae (Department of Biology, Seoul Womens University)
Lee, Chong-Kil (College of Pharmacy, Chungbuk National University)
Ha, Nam-Joo (Department of Pharmacy, Sahmyook University)
Kim, Kyung-Jae (Department of Pharmacy, Sahmyook University)
Publication Information
Archives of Pharmacal Research / v.25, no.6, 2002 , pp. 895-902 More about this Journal
Abstract
Monocytes and macrophages playa major role in defense mechanism of the host response to tumor, in part through the secretion of several potent products and macrophage cytokines. Monocytes and tissue macro phages produce at least two groups of protein mediators of inflammation, interleukin 1 (IL-1) and tumor necrosis factor (TNF). Recent studies emphasizes that TNF and IL-1 modulate the inflammatory function of endothelial cells, leukocytes, and fibroblasts. In this study, our work is directed toward studying the in vitro effects of Korean propolis on the ability to induce cellular and secretory responses in murine macrophage cell line, RAW 264.7. It was found that Water Extract of Korean Propolis (WEP) could activate macro phages by producing cytokines. The production of the macrophage cytokines, IL-1 and TNF-$\alpha$, by RAW 264.7 treated with WEP was examined from 2.5 $\mu\textrm{g}$/ml up to 25 $\mu\textrm{g}$/ml with dose dependent manner. Nitric oxide (NO) production was also increased when cells were exposed to combination of LPS and WEP from 2.5 $\mu\textrm{g}$/ml up to 25 $\mu\textrm{g}$/ml. At high dose of WEP (50 to 100 $\mu\textrm{g}$/ml) used to prescribe for anti-inflammatory and analgesic medicine showed inhibition of NO production in LPS-stimulated macrophage. Besides cytokine production, NO release, surface molecule expression and cell morphologic antigen expression were increased in response to the stimulation by WEP. These results suggested WEP may function through macrophage activation.
Keywords
Macrophage activation; Inflammation; Cytokines; Korean Propolis;
Citations & Related Records

Times Cited By Web Of Science : 6  (Related Records In Web of Science)
Times Cited By SCOPUS : 6
연도 인용수 순위
1 Cho, J. Y., Park, J., Yoo, E. S., Baik, K. U. and Park, M. H., Effect of ginseng saponin on tumor necrosis factor-production and T cell proliferation. Yakhak Hoeji, 43, 296-301 (1998)
2 Crissman, H. A. and Steinkamp, J. A., Rapid, simultaneous measurementof DNA, protein, and cell volume in single cells from large mammaliancell populations. J. Cell Bio., 59, 766-771 (1973)   DOI   ScienceOn
3 Khayyal, M. T., el-Ghazaly, M. A. and el-Khatib, A. S., Mechanisms involved in the antiinflammatory effect of propolis extract. Drugs under experimental and clinical research, 19, 197-203 (1993)   PUBMED
4 Kujumgiev, A., Bankova, V., Ignatova, A. and Popov, S., Antibacterial activity of propolis, some of its components and their analogs. Pharmazie, 48, 785-786 (1993)   PUBMED
5 MacMicking, J. D., Nathan, C., Hom, G., Chartrain, N., Fletcher, D. S., Trumbauer, M., Stevens, K., Xie, G-W., Sokol, K., Hutchinson, N., Chen, H. and Mudgett, J. S., Altered response to bacterial infection and endotoxic shock in mice lackinq inducible nitric oxide synthase. Cell, 81, 641-650 (1995)   DOI   ScienceOn
6 Matsushige, K., Basnet, P., Kadota, S., Tanaka, K. and Namba, T., Propolis protects pancreatic $\beta$-cells against the toxicity of stretozotocin(STZ). Phytomedicine, III (2), 203-209 (1996)
7 Noel, R. R., Everly, C. M., John, L. F., Herman, F. and Gerald, M. P., The Manual of Clinical Laboratory Immunology, USA, pp. 233-234 (1991)
8 Prusotam, B., Four Di-O-caffeoyl Quinic acid Derivatives from Propolis., Biological and Pharmaceutical Bulletin, 19, 1479-1484 (1996)   DOI   ScienceOn
9 Vileek, J. and Lee, T. H., Tumor necrosis factor. New insights into the molecular mechanism of its muriple actions. J. Bio. Chem., 266, 7313-7316 (1991)
10 Faris-Eisner, R., Sherman, M. P., Aeberhard, E. and Chaudhuri, G., Nitric oxide is an important mediator for tumoricidal activity in vivo. Proceedings of the National Academy of Sciences of the United States of America. USA. 91, 9407-9411 (1994)   DOI   ScienceOn
11 Sakamoto, S., Matsuno, T., Matsubara, M., Kudo, H., Suzuki, S., Sassa, S., Yoshimura, S., Liu, L., Nakayama, T. and Nagasawa, H., Effects of propolis on 7, 12-dimethylbenz(a) anthracene-induced skin tumors and on lifespan of tumorbearing mice, Journal of Traditional Medicines, 11, 114-117 (1994)
12 Lorsbach, R. B., Murphy, W. J., Lowenstein, C. J., Snyder, S. H. and Russel, S. W., Expression of the nitric oxide synthase gene in mouse macrophages activated for tumor cell killing. J. Bio. Chem., 268, 1908-1913 (1993)
13 Adams, D. O. and Hamilton, T. A., The cell biology of macrophage activation. Annual Review of Immunology, 2, 238-318 (1984)
14 Arvouet-Grand A., Lejeune, B., Bastide, P., Pourrat, A., Privat, A. M. and Legret, P., Propolis extract. II. Wound healing the rat and rabbit. Journal de Pharmacie de Belgique, 48, 171-8 (1993)   PUBMED
15 Drysdale, B. E., Agarwal, S. and Shin, H. S., Macrophage mediatedtumoricidal and activaty : Mechanismsof activation and cytotoxicity. Prog. Allergy, 40, 111-161 (1988)   PUBMED
16 Choi, H. J., shim, S. B., Kim, N. J., and Kim, J. W., Studies on the efficacies of water extract of propolis. J. Appl. Pharm., 6, 261-268 (1998)
17 Guyton, A. C., Hall, I. H., Textbook of Medical Physiology, NINTH EDITION, W. B. Saunders Co., pp.204, 1996
18 Wolfe, T. A. and Dasta, J. F., Use of nitric oxide synthse inhibitors as a novel treatment for septic shock. The Annals of Pharmacotherapy, 29, 36-46 (1995)   DOI   PUBMED
19 Bankova, V. S., Popov, S. S. and Marekov, N. L., A study on flavonoids of proplois. J. Nat. Prod., 46, 471-474 (1983)   DOI
20 Volpert, Rand Elstner, E. F., Biochemical activities of propolis extracts. II. Photodynamic activities. Z Naturforsch [C], 48, 858-62 (1993)   PUBMED
21 Djeu, J. Y., Blanchard, D. K., Richards, A. L. and Friedman. H., The cell biology of macrophage activation. J. Immuno., 141, 4047-4052 (1988)
22 Gama G. B., Propolis and malaria, Revista da Sociedade Brasileira de Medicina Tropical., 26, 193 (1993)   PUBMED
23 Linna, Z. and lan, R. T., Activation of a mouse macrophage cell line by acemannan : The major carbohydrate fraction from Aloe vera gel. J. Immunopharm., 35, 119-128 (1996)   DOI   ScienceOn
24 Kim, Y. M., de Vera, M. E., Watkins, S.C. and Billiar, T. R, Nitric oxide protects cultured rat hepatocytes from tumor necrosis factor-alpha-induced apoptosis by inducing heat shock protein. J. Bio. Chem., 272, 1402-1411 (1997)   DOI   ScienceOn
25 Charles, A. J., Paul, T. and Mark, W., Immunobiology, The immune system in health and disease, Current Biology Publications, London, UK, pp.300, 1999
26 Gossart, S., Cambon, C., Orfila, C., Seguelas, M., Lepert, L., Rami, J., Carre, P. and Pipy, B., Reactive oxygen intermediates as regulators of TNF-$\alpha$ production in rat lung inflammation induced by silica. J. Immunol., 156, 1540-1548 (1996)   PUBMED
27 Brumfitt, W., Hamilton-Miller, J. M. and Franklin, I., Antibiotic activity of natural products Propolis. Microbios, 62, 19-22 (1990)   PUBMED
28 Miyataka, H., Nisiki, M., Matsumoto, H., Fujimoto, T, Matsuka, M. and Satoh, T., Evaluation of propolis. I. Evaluation of Brazilian and Chinese propolis by enzymatic and physicochemical methods. Biological and Pharmaceutical Bulletin, 20, 496-501 (1997)   DOI   ScienceOn
29 Choi, Y. E., Ahn, H. and Ryu, J., Polyacetylenes from Angelica gigas and their Inhibitory activity on nitric oxide synthesis in activated macrophages. Biological and Pharmaceutical Bulletin, 23, 884-886 (2000)   DOI   ScienceOn