Correlation of serum IgE with stress in Indian dromedaries affected with skin wounds

Автор: Kataria A.k, Kataria N., Maan R.

Журнал: Журнал стресс-физиологии и биохимии @jspb

Статья в выпуске: 3 т.6, 2010 года.

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The present investigation was planned to explore stress induced changes in the levels of IgE by correlating them with the important parameters of stress like cortisol and free radical scavengers in the serum of Indian dromedaries. The mean values of serum IgE and cortisol were significantly (p ≤ 0.05) higher in wound affected dromedaries than the respective healthy values. A positive significant (p ≤ 0.05) correlation was observed between the values of serum IgE and cortisol. The mean values of serum vitamin C, vitamin E and glutathione decreased whereas of serum catalase, superoxide dismutase, monoamine oxidase, glutathione reductase, xanthine oxidase, oxidase and peroxidase increased significantly (p ≤ 0.05) from their respective healthy mean values. A negative significant (p ≤ 0.05) correlation was observed between the values of serum IgE and vitamin C; serum IgE and vitamin E and serum IgE and glutathione activities. A positive significant (p ≤ 0.05) correlation was observed between the values of serum IgE and catalase; serum IgE and superoxide dismutase; serum IgE and monoamine oxidase; serum IgE and glutathione reductase; serum IgE and xanthine oxidase; serum IgE and oxidase; and serum IgE and peroxidase activities. It was concluded that stress was able to induce marked changes in the levels of IgE in the Indian dromedaries. Wounds altered the immune status as well as levels of cortisol and free radical scavengers in the serum.

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Cortisol, dromedaries, free radical scavengers/, ige, stress

Короткий адрес: https://sciup.org/14323487

IDR: 14323487

Список литературы Correlation of serum IgE with stress in Indian dromedaries affected with skin wounds

  • Ardan, T., Kovaceva, J. and Cejkova, J. (2004) Comparative histochemical and immunohistochemical study on xanthine oxidoreductase/xanthine oxidase in mammalian corneal epithelium. Acta. Histochem., 106 (1), 69-75.
  • Bauer, V. and Bauer, F. (1999) Reactive oxygen species as mediators of tissue protection and injury. Gen. physiol. Biophys.18,7-14
  • Cacioppo, J.T., Kiecolt-Glaser, J.K., Malarkey, W.B, Laskowski, B.F, Rozlog, L.A., Poehlmann, K.M., Burleson, M.H. and Glaser, R. (2002) Autonomic and glucocorticoid associations with the steady-state expression of latent Epstein-Barr virus. Horm. Behav., 42, 32-41.
  • Chelikani, P., Fita, I. and Loewen, P.C. (2004) Diversity of structures and properties among catalase. Cell. Mol. Life Sci. 61 (2), 192-208.
  • Gaetani, G., Ferraris, A., Rolfo, M., Mangerini, R., Arena, S. and Kirkman, H. (1996) Predominant role of catalase in the disposal of hydrogen peroxide within human erythrocytes.. Blood 87 (4), 1595-9.
  • Goldblith, S.A. and Proctor, B.E. (1950) Photometric determination of catalase activity. J.Biol.chem. 187,705-709.
  • Green, A.L. and Haughton, T.M. (1961) A colorimetric method for the estimation of monoamine oxidase. Biochem. J.78,172-175.
  • Herrschan, R.F., Kasper, C. and Sullivan, T.J. (1992) Endogenous cortisol regulates immunoglobulin E dependent late phase reaction. J. Clin. Invest. 90, 596-603
  • Kataria, A.K. and Kataria, N. (2004) Immunoradiometric assay of serum IgE levels in dromedary camel. J. Camel Pract. Res. 11,11-13
  • Kataria, A.K. and Kataria, N. (2009) Serum markers of oxidative stress in Rathi cattle. The Indian Cow. (in press).
  • Kataria, N., Kataria, A.K., Maan, R. and Gahlot, A.K. (2010). Evaluation of oxidative stress in brucella infected cows. Journal of Stress Physiology & Biochemistry 6 (2),19-31
  • King, J. (1965) In, Practical clinical enzymology. D.Van Nostrand Company Ltd., London. pp 1-.301.
  • Knight, J.A. (2000) Review: Free radicals, antioxidants, and the immune system. Annals of Clinical and Laboratory Science 30, 145-158
  • Litwack, G., Bothwell, J.W., Williams, J. N. Jr. and Elvehjem, C.A. (1953) A Colorimetric assay for xanthine oxidase in rat liver homogenates. J. Biol. Chem 200(1), 303-310
  • Long, C.(2003) Ascorbic acid dynamics in the seriously ill and injured. Journal of Surgical Research. 109, 144-148.
  • Meister, A. (1988) Glutathione metabolism and its selective modification. J. Biol. Chem. 263 (33), 17205-17208.
  • Meyer, J.H., Ginovart, N., Boovariwala, A., Sagrati, S., Hussey, D. and Garcia, A. (2006) Elevated monoamine oxidase A levels in the brain, An explanation for the monoamine imbalance of major depression. Archives of General Psychiatry 63, 1209-1216.
  • Nair, P.P. and Magar, N.G. (1955).Detemination of vitamin E in blood. J.Biol.chem 220(1), 157-159.
  • Owens, C.W.I. and Belcher, R. V. (1965). A colorimetric micro method for the determination of glutathione. Biochem.J. 94 (3), 705-711.
  • Padayatty, S., Katz, A., Wang, Y., Eck, P., Kwon, O., Lee, J., Chen, S., Corpe, C., Dutta, A., Dutta, S. and Levine, M. (2003). Vitamin C as an Antioxidant, evaluation of its role in disease prevention. J. Am. Coll. Nutr. 22 (1), 18-35.
  • Podilchalk, M.D., Vdovychenko, V.I., and Terletska, L.M. (1996) Lipid peroxidation and blood serum peroxidase activity in diseases of the hepatobiliary system. Lik Sprava. 1-2, 110-112
  • Ramboer, C., Piessens, F. and Groote, J. De. (1972) Serum Xanthine Oxidase and Liver Disease. Digestion. 7(3-4),183-195
  • Snedecor, G. W. and Cochran, W. G. (1967) In, Statistical Methods. 6th ed. Oxford & IBH Publishing Co. New Delhi pp 45-83.
  • Snell, F.D. and Snell, C.T. (1954) In, Colorimetric methods of analysis 3rd edn D.Van Nostrand Company. New York. Pp 512-518.
  • Strenzke, N., Grabbe,J., Pleth, K.E.S.,Wolff, H. H. and Gibbs, B.F. (2001). Effects of antioxidant vitamins on anti IgE induced mediator release from human basophils. Inflammation Research. 2, 49-50
  • Toda, M., Sakaguchi, Y. and Morimoto, K. (2007) Correlation between serum IgE and salivary cortisol levels in subjects with type I allergic disorders. Int. J. Immunopathol. Pharmacol. 20,203-205
  • Varley, H. (1988). In, Practical Clinical Biochemistry. 4th edn. CBS publishers, New Delhi. Pp 349-393.
  • Vozenin-Brotons, M.C., Sivan,V., Gault, N., Renard, C., Geffrotin, C., Delanian, S., Lefaix, J.L. and Martin, M. (2001) Antifibrotic action of Cu/Zn SOD is mediated by TGF-beta1 repression and phenotypic reversion of myofibroblasts. Free. Radic. Biol. Med., 30 (1): 30-42.
  • Winterbourn, C., Hawkins, R., Brian, M. and Carrell, R. (1975): The Estimation of red cell superoxide dismutase Activity. J. Lab. Clin. Med. 85, 337-340.
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