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http://dx.doi.org/10.6114/jkood.2016.29.3.134

Effect of Gal-Geun-Tang on Antigen-Specific Immune Response  

Cho, Dae-Yeoun (원광대학교 대학원 한의학과)
Yun, Young-Gab (원광대학교 대학원 한의학과)
Jung, Myung (원광대학교 한의학전문대학원 한국 전통의학 연구소)
Lee, Eun-Hye (원광대학교 한의학전문대학원 한국 전통의학 연구소)
Bok, Young-Ok (원광대학교 한의학전문대학원 한국 전통의학 연구소)
Jung, Chang-Ohk (원광대학교 한의학전문대학원 한국 전통의학 연구소)
Lim, Kyu-Sang (원광대학교 한의학전문대학원 한국 전통의학 연구소)
Publication Information
The Journal of Korean Medicine Ophthalmology and Otolaryngology and Dermatology / v.29, no.3, 2016 , pp. 134-149 More about this Journal
Abstract
Objectives : Gal-Geun-Tang (GT) has been described from SANGHAN in Korean traditional medicine and known to act against cold, fever, hypertension, and nasal catarrh. However, little has yet been learned about the effect of GT on immune function. In the current study, in vitro and in vivo immunomodulatory activity of GT (water extract) was investigated.Methods : Water extract of GT induced in vitro proliferation of spleen cells and significantly increased their proliferative responses during anti-CD3 activation. Using purified splenic T and B cells, it was revealed that GT has a mitogenic activity to B cells and promotes their proliferation induced by lipopolysaccharide, whereas T cell proliferation was not triggered and GT was rather inhibitory to T cell activation caused by anti-CD3 antibody. In the presence of antigen presenting cells (APC), GT addition resulted in a significant increase of IFNγ and IL-4, but not IL-2, production. However, addition of high concentration (1,000㎍/㎖) of GT led to a marked reduction in T cell cytokine production and under such condition, GT facilitated apoptosis of T cells when examined by flow cytometry with propidium iodide staining.Results : In vivo immunomdulation of GT was also investigated using a mouse model. Following keyhole limpet hemocyanin (KLH) immunization, GT (1 ㎎/day) was orally administered for 9 days. Cell numbers in thymus, spleen and peripheral blood were not altered by GT administration, indicating that such dose is not immunotoxic. Cell numbers in draining lymph nodes (LN) and ex vivo Ag-specific proliferation of LN cells were significantly elevated by GT administration. However, any preferential stimulation of T or B and CD4+ or CD8+ T cell subpopulations was not observed in a flow cytometric analysis of LN cells. This result shows that GT does not promote in vivo B cell proliferation while GT enhances Ag-specific proliferation of LN cells, unlike what was observed in vitro.Conclusions : For a further understanding of in vivo immunomodulatory activity of GT, ex vivo cytokine production of LN cells obtained from KLH-immunized mice was evaluated. Ag-specific IFNγ production was significantly higher in GT-treated mice when compared to PBS-treated control mice. In contrast, IL-4 production in GT-treated group was comparable to control group unlike to in vitro data. In addition, GT administration did not result in any significant differences in serum levels of Ig (IgM, IgG1 and IgG2a) between GT-treated and control groups. Taken together, these data strongly support that GT promotes immune response, more profoundly type 1 helper T cell (Th1) activity and GT may be applicable for treatment of intracellular parasite infection such as viral diseases.
Keywords
Gal-Geun-Tang(GT); cold; fever; hypertension; nasal catarrh; immune function;
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  • Reference
1 Claude C, Lee D, Donnars O, Park SH, Beavis A, Koezuka Y, et al. Cutting Edge: Cross-Talk Between Cells of the Innate Immune System: NKT Cells Rapidly Activate NK Cells. J Immunol. 1999;163:4647-50.
2 Von Boehmer H, Kisielow P, Kishi H, Scott B, Borgulya P, The HS. The expression of CD4 and CD8 accessory molecules on mature T cells is not random but correlates with the specificity of the alpha beta receptor for antigen. Immunol Rev. 1989;109:143-51.   DOI
3 Yun YG. East Medical Traditional Medical Formulae and prescription Commentary. Seoul:Euiseongdang. 1998:145.
4 Lee SI, Tian Z. prescription Commentary. Seoul:Seongbosa. 1987:361.
5 Heo J. Dongeuibogam. Seoul:Hanmi Medicine. 2001:610.
6 Chae IS. Treatise on Febrile Interpretation Translation. Seoul:Gomunsa. 1991:328-9.
7 Pak HJ. Treatise on Febrile Coming to say. Seoul:Pharmaceutical News Agency. 1991:48.
8 No YB. Modern Commentary and Clinical Application of Galgeun-tang. Seoul:Uirim. 2004;15(308):22.
9 Cho CG. Oriental medical study on immunity. Oriental medicine. 1986;15(1, 12, 33):19-20.
10 Lee JH. Pathogen Microbiology. Seoul: Sumunsa. 1973:133.
11 Jeong YH. Experimental Study on immunomodulatory effect of Gamiboa-tang. Journal of Korean Oriental Pediatrics. 2000;14(2):76-8.
12 Hwang UO. Literature Review on immunity. Oriental Medical Society. 1989:10(1):219, 222-3.
13 Sa MJ. Modern Traditional Chinese Medicine Library. Beijing:Academy Press. 1997:71-3.
14 Park YS. Pharmacology of Herbal Commentary. Seoul:Academic books. 2002:199-201.
15 Wang YS. Subcommittee to study and application TCM compound. TCM Scientific & Technical Publishers. 1993:349-50.
16 Cho GH. East-West of the Herbal prescription medical analysis methodology. Seoul:Goryeo medicine. 1999:84.
17 Park JH, Jung JH, Kim JS, Park HJ. Studies on Quality Control of Crude Drugs Preparations, Chemical Analysis of Galgeun-tang. Pharmacognosy. 1997;28(1):44-6.
18 GuBo DD, Gye CI, Kim IH, Cho PH. The ROK pharmaceutically. Seoul:Dongnam Publishers. 1985:54-5, 64, 67.
19 GukJi JG, Sam DB, SeokJeong MM, GeumChon JG, Lee YT. The latest Immunology. Seoul:jibmundang. 1990:33.
20 Jin JI. Herbal Medicine Dictionary. Seoul: Songak. 1990:16-7, 20-1, 68-9, 76-7, 138-9, 254-5, 258-9.
21 Shin MG. Complete translation of traditional Chinese medicine Dictionary. Seoul:Jeongdam. 1999:34-5, 68-70, 213, 990, 1207-8, 1679, 2195.
22 Heur HW. Illustrated common Chinese medicine Prescription. Beijing:Hwaann publishing company. 1980:52.
23 Kim SJ. Immunology. Seoul:Goryeo medicine. 1994:2-5.
24 Picker LJ, Butcher EC. Physiological and molecular mechanisms of lymphocyte homing. Annu Rev Immunol. 1993;10:561-91.   DOI
25 Jain J, Loh C, Rao A. Transcriptional regulation of the IL-2 gene. Curr Opin Immunol. 1995;7:333-42.   DOI
26 Ward ES, Ghetie V. The effector functions of immunoglobulins: implications for therapy. Thera. Immunol. 1995;2:77-94.
27 Wyllie AH, Kerr JR, Currie AR. Cell death: the significance of apoptosis. Int Rev Cytol. 1980;68:251-306.   DOI
28 Jumper MD, Splawski JB, Lipsky PE, Meek K. Ligation of CD40 induces sterile transcripts of multiple Ig H chain isotypes in human B cells. J Immunol. 1994;152:438-45.
29 Herrod HG. IgG subclass deficiency. Allergy Proc. 1992;13:299-302.   DOI
30 Gordon S. Alternative activation of macrophages. Nat Rev Immunol. 2003;3:23-5.   DOI
31 Schultz U, Chisari FV. Recombinant Duck Interferon Gamma Inhibits Duck Hepatitis B Virus Replication in Primary Hepatocytes. J Virol. 1999;73:3162-8.
32 Nelms K, Keegan D, Zamorano J, Ryan JJ, Paul WE. The IL-4 receptor: signaling mechanisms and biologic functions. Annu Rev Immunol. 1999;17:701-38.   DOI
33 Swain SL, Weinberg AD, English M, Huston. G. IL-4 directs the development of Th2-like helper effectors. J Immunol. 1990;145: 3796-806.
34 O'Garra A, N AN. The molecular basis of T helper 1 and T helper 2 cell differentiation. Trends Cell Biol. 2000;10:542-50.   DOI
35 Ezekowitz RA, Hoffman J. Innate immunity. Curr Opin Immunol. 1998;10:9-53.   DOI
36 Lihenan SA, Martinez-Pormares L, Gordon S. Macrophage letins in host defense. Microbes Infect. 2000;2:279-88.   DOI
37 Biron CA, Nguyen KB, Pien GC, Cousens LP, Salazar-Mather TP. Natural killer cells in antiviral defense: function and regulation by innate cytokines. Annu Rev Immunol. 1999;17:189-220.   DOI