STUDY ON EFFECT OF IMMUNE STIMULATION OF γ-RAY IRRADIATED β-GLUCAN ON TILAPIA

NGUYEN NGOC DUY1, NGUYEN QUOC HIEN1, DANG VAN PHU1
1 Research and Development Center for Radiation Technology 202A Street 11, Linh Xuan Ward, Thu Duc District, HCM City

Main Article Content

Abstract

Low molecular weight β-glucan (LMWβG) and oligo β-glucan (oligoβG) solutions were prepared by combination of hydrothermal steaming and radiation decomposition methods. The efficiency of the degradation process was demonstrated by gel permeation chromatography (GPC) analysis of the average molecular weight (Mw) of β-glucan. Results showed that the Mw of LMWβG was decreased with increasing steaming time, concentration of H2O2 and doses of irradiation. For LMWβG, Mw reduces from 296,600 Da to 44,400 Da when concentration of H2O2 raise from 2.5% to 10% and for oligoβG Mw reduces from 40,487 to 9391 when concentration of H2O2 raise from 0.5% to 5%. OligoβG which was prepared by radiation decomposition method, the Mw decreased from 56,700 to 7145 when the dose increased from 0 to16 kGy. LMWβG and oligoß-glucan are mixed into fish food at a concentration of 100 ppm. Fish were fed a diet containing LMWβG and oligoβG during 45 days and was challenged with Strep. agalactidae bacterial to investigate immune stimulation. The results indicated that oligoβG has higher immune stimulation effect than LMWβG. The influence of various concentrations (50, 100, and 150 ppm) of oligoβG for the immune stimulation of tilapia were investigated. Results showed that survival rate of tilapia fish was the highest for oligoβG of 150 ppm.

Article Details

References

[1] Yano et al., “Polysaccharide-induced protection of carp Cyprinus carpio L., against bacterial infection”, Journal of Fish Diseases, 14, 1991, pp. 577-582.
[2] Robertsen B, et al., “Enhancement of non-specific disease resistance in Atlantic salmon Salmo salar L., by a glucan from Saccharomyces cerevisiae cell wall”, Journal of Fish Diseases, 13, 1990, pp. 391-400.
[3] Matsuyama H, et al., “Protective effect of Schizophyllan and Scleroglucan against Streptococcus sp. Infection in yellowtail (Seriola quinqueradiata)”, Aquaculture, 101, 1992, pp.197-203.
[4] Jeney G, et al., “Glucan injection or bath exposures given alone or in combination with bacterin enhance the non-specific defense mechanisms in rainbow trout (Oncorhynchus mykiss)”. Aquaculture, 116, 1993, pp.315-29.
[5] Siwicki AK, et al., “Dietary intake of immunostimulants by rainbow trout affects non-specific immunity and protection against furunculosis”, Vet Immunol Immunopathol, 41, 1994, pp.125-39.
[6] Yoshida T, et al., “Augmentation of non-specific protection in African catfish, Clarias gariepinus (Burchell) by the long-term oral administration of immunostimulants”, Journal of fish Diseases, 18, 1995, pp. 195-198.
[7] Baulny, M.O.D et al., “Effect of long term oral administration of β-glucan as in immunostimulant or an an adjuvant on some non-specific parameters of the immune stimulation of turbot Scophthlmus maximums”, Diseases of Aquatic Organisms, 26, 1996, pp.139-147.
[8] Mulero, V et al., “Dietary intake of levamisol enhances the immune stimulation and disease resistance of the marine teleost gilthead seabream (Sparus aurata L)”, Fish and Shellfish Immunology, 8, 1998, pp.49-62.
[9] Verlhac, V et al., “Immunomodulation by dietary vitamin C and glucan in rainbow trout Oncorhynchus mykiss”, Fish and Shellfish Immunology, 8, 1998, pp.409-424.
[10] Nishmura, K et al., “Immunological activity of chitin and its derivatives”, Vaccine 2, 1984, pp.93-98.
[11] Azuma, I et al., “Development of immunostimulants in Japan. In: Immunostimulants Now and Tomorrow”, Jpn. Soc. Press. Tokyo, Springer Verlag, Berlin, 1987, pp.41-46.
[12] Suzuki, K et al., “Protecting effect of chitin and β-glucan experimentally induced marine candidacies”, Microbiology and Immunology, 28, 1984, pp.903-912.
[13] Anderson, D.P et al., “Duration of protection against Aromonas salmonicida in brook trout immunostimulated with glucan or β-glucan by injection or immersion”, Progessive Fish Culturist, 56, 1994, pp. 258-261.
[14] Suphantharika. M. et al., “Preparation of spent brewer’s yeast β-glucan with a potential application as an immunostimulant for black tiger shrimp Penaeus monodon”. Bioresourse Technology, 88, 2003, 55-60.
[15] Byun E.H., et al., “Effect of gamma irradiation on the physical and structure properties of β-glucan”. Radiation Physics and Chemistry, 77, 2008, 781-786.