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Effects of retinoids on immune responses in birds

Published online by Cambridge University Press:  18 September 2007

Aharon Friedman
Affiliation:
Department of Animal Sciences, Faculty of Agriculture, The Hebrew University of Jerusalem, P.O. Box 12, Rehovot, Israel
David Sklan
Affiliation:
Department of Animal Sciences, Faculty of Agriculture, The Hebrew University of Jerusalem, P.O. Box 12, Rehovot, Israel
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Abstract

Vitamin A is an essential nutrient that has an influence on immune responses in birds. Both low and high vitamin A intakes result in impaired immune responses. Low dietary vitamin A has been shown to cause reduced antibody production, defective T-cell responses and reduced phagocytosis, and decreased resistance to infection by bacterial and viral pathogens and protozoan enteropathogens. Enhanced immune responses can be elicited by high, but not excessive, dosages of vitamin A. Optimum immune responses in growing chicks and turkeys were obtained with vitamin A intakes that were 3–10 fold higher than NRC recommended levels.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1997

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References

Abels, J.C., Gorham, A.T., Pack, G.T. and Rhoads, C.P. (1941) Metabolic studies in patients with cancer of the gastrointestinal tract I. Plasma vitamin A levels in patients with malignant neoplastic disease, particularly of the gastrointestinal tract. Journal of Clinical Investigation 20: 749764CrossRefGoogle Scholar
Augustine, P.C. and Ruff, M.D. (1983) Changes in carotenoid and vitamin A levels in young turkeys infected with Eimeria meleagrimitis or E. adenoeides. Avian Diseases 27: 963971CrossRefGoogle ScholarPubMed
Aydelotte, M.B. (1963) Vitamin A deficiency in chickens. British Journal of Nutrition 17: 205211CrossRefGoogle ScholarPubMed
Bang, F.B., Bang, B.G. and Foard, M. (1975) Acute Newcastle disease virus infection of the upper respiratory tract of the chicken. II. The effects of diets deficient in vitamin A on the pathogenesis of the infection. American Journal of Pathology 79: 417424Google Scholar
BEDO, G., Santisteban, P. and Aranda, A. (1989) Retinoic acid regulates growth hormone gene expression. Nature 339: 231234CrossRefGoogle ScholarPubMed
Blomhoff, R., Green, M.H., Green, J.B., Berg, T., Norum, K.R. (1991) Vitamin A metabolism: new perspectives on absorption, transport and storage. Physiology Reviews 71: 951990CrossRefGoogle ScholarPubMed
Bondi, A. and Sklan, D. (1984) Vitamin A and carotene in animal nutrition. Progress in Food and Nutrition Science 8: 165191Google ScholarPubMed
Boyd, EM. and Edwards, H.M. (1962) The effect of vitamin A on the course of Mycoplasma infection in chicks. Poultry Science 41: 750754CrossRefGoogle Scholar
Chambon, P., Zelent, A., Petkovich, M., Mendelsohn, C., Leroy, P., Krust, A., Kastner, P. and Brand, N. (1991) The family of retinoic acid nuclear receptors. In: Retinoids: 10 Years On (Ed. Saurat, J-H.), Karger, Basel pp. 1027Google Scholar
Damm, K., Thompson, C.C. and Evans, R.M. (1989) Protein encoded by v-erbA functions as a thyroid hormone acceptor antagonist. Nature 339: 593597CrossRefGoogle Scholar
Darip, M.D., Sirisinha, S. and Lamb, A. (1979) Effect of vitamin A deficiency on the susceptibility of rats to Angiostrongylus cantonensis. Proceedings of the Society for Experimental Biology and Medicine 161: 600604CrossRefGoogle ScholarPubMed
Davis, C.Y. and Sell, J.L. (1989) Immunoglobulin concentrations in serum and tissues of vitamin A-deficient broiler chicks after Newcastle disease virus vaccination. Poultry Science 65: 136144CrossRefGoogle Scholar
Deluca, L.M., Shumacher, M. and Nelson, D.P. (1971) Localisation of the retinol dependent fucose-glycopeptide in the goblet cell of the rat small intestine. Journal of Biological Chemistry 246: 57625766CrossRefGoogle Scholar
Dingle, J.T. (1968) Vacuoles, vesicles and lysosomes. British Medical Bulletin 24: 141145CrossRefGoogle ScholarPubMed
Dolle, P., Roperte, E., Kastner, P., Petkovitch, M., Stoner, C.M., Gudas, L.J. and Chambon, P. (1989) Differential expression of genes encoding, α, β, and γ retinoic acid receptors and cRABP in the developing limbs of the mouse. Nature 342: 702705CrossRefGoogle ScholarPubMed
Dhur, A., Galan, P. and Hercberg, S. (1991) Vitamin A deficiency and immunity. Journal of Clinical and Biochemical Nutrition 11: 119CrossRefGoogle Scholar
Eaton, H.D. (1969) Chronic bovine hypo and hypervitaminosis A and cerebrospinal fluid pressure. American Journal of Clinical Nutrition 22: 10701080CrossRefGoogle ScholarPubMed
Fell, H.B. and Mellanby, E. (1952) The effect of hypervitaminosis A on embryonic limb bones cultivated in vitro. Journal of Physiology 116: 320349CrossRefGoogle ScholarPubMed
Fletcher, R.A. (1971) Effects of vitamin A deficiency on the pituitary-gonad axis of the California quail (Lophortyx californicus). Journal of Experimental Zoology 176: 2529CrossRefGoogle ScholarPubMed
Friedman, A. (1991) Induction of immune response to protein antigens by subcutaneous co-injection with water miscible vitamin A derivatives. Vaccine 9: 122128CrossRefGoogle ScholarPubMed
Friedman, A. and Sklan, D. (1989a) Impaired T-lymphocyte immune response in vitamin A depleted rats and chicks. British Journal of Nutrition 62: 439449Google Scholar
Friedman, A. and Sklan, D. (1989b) Antigen specific immune response impairment in the chick as influenced by vitamin A nutrition. Journal of Nutrition 119: 790795CrossRefGoogle Scholar
Friedman, A. and Sklan, D. (1992) Adjuvant properties of vitamin A and derivatives influenced by form of delivery. Journal of Nutritional Immunology 1: 6573Google Scholar
Friedman, A. and Sklan, D. (1993) Vitamin A and immunity. In: Nutrition and Immunology. Vol.8. Human Nutrition: a Comprehensive Treatise (Eds Alfin-Slater, R.B. and Kritchevsky, D.), Plenum, New York pp. 197216CrossRefGoogle Scholar
Friedman, A., Meidovsky, A., Leitner, G. and Sklan, D. (1991) Decreased resistance and immune response to E. coli infection in chicks with low and high intakes of vitamin A. Journal of Nutrition 121: 395400CrossRefGoogle Scholar
Fujimaki, I. (1926) Formation of carcinoma in albino rats fed on deficient diets. Journal of Cancer Research 10: 469477Google Scholar
Giguere, V., Ong, E.S., Segui, P. and Evans, R.M. (1987) Identification of the receptor for the morphogen retinoic acid. Nature 330: 624629CrossRefGoogle ScholarPubMed
Glass, C.K., Lipkin, S.M., Devary, O.V. and Rosenfeld, M.G. (1989) Positive and negative regulation of gene transcription by a retinoic acid-thyroid hormone receptor. Cell 59: 697708CrossRefGoogle ScholarPubMed
Graupner, G., Wills, K.N., Tzukerman, M., Zhang, X.K. and Pfahl, M. (1989) Dual regulatory role for thyroid-hormone receptors allows control of retinoic acid receptor activity. Nature 340: 653656CrossRefGoogle ScholarPubMed
Green, H.N. and Mellanby, E. (1928) Vitamin A as an anti-infective agent. British Medical Journal 2: 691696CrossRefGoogle ScholarPubMed
Halevy, O., Arazi, Y., Melamed, D., Friedman, A. and Sklan, D. (1993) Retinoic acid receptor-α gene expression is modulated by dietary vitamin A and by retinoic acid in chicken ‘I’ lymphocytes. Journal of Nutrition 124: 21392146CrossRefGoogle Scholar
Hall, W.C., Damjanou, I., Nielsen, S.W., VAN DER Heide, L. and Eaton, H.D. (1980) Testicular changes of acute vitamin A deficiency of cockerels. American Journal of Veterimry Research 41: 586592Google Scholar
Hatchigian, E.A., Santos, J.I., Broitman, S.A. and Vitale, J.J. (1989) Vitamin A supplementation improves macrophage function and bacterial clearance during experimental Salmonella infection. Proceedings of the Society for Experimental Biology and Medicine 191: 4754CrossRefGoogle ScholarPubMed
Howell, J.McC. and Thompson, J.N. (1967) Lesions associated with the development of ataxia in vitamin A deficient birds. British Journal of Nutrition 21: 741748CrossRefGoogle Scholar
Kriz, H. and Holman, J. (1969) Histology of onset of skin changes in hypervitaminosis A in chickens. International Ionrnal of Vitamin Research 39: 37Google Scholar
Krust, A., Kastner, P., Petkovich, M., Zelent, A. and Chambon, P. (1989) A third human retinoic acid receptor. Proceedings of the National Academy of Sciences USA 56: 53105314CrossRefGoogle Scholar
Lee, L.F. and Bacon, L.D. (1983) Ontogeny and line differences in the mitogenic response of chicken lymphocytes. Poultry Science 62: 579584CrossRefGoogle ScholarPubMed
Leutskaya, Z.K. and Fais, D. (1977) Antibody synthesis stimulation by vitamin A in chickens. Biochimica et Biophysica Acta 475: 207216Google Scholar
Lippman, S.M. and Meyskens, EL. (1988) Vitamin A derivatives in the prevention and treatment of human cancer. Journal of American Clinical Nutrition 7: 269284Google ScholarPubMed
Lopen, G.A., Phillips, R.W. and Nockels, C.F. (1973) Body water kinetics in vitamin A deficient chickens. Proceedings of the Society for Experimental Biology and Medicine 144: 54Google Scholar
Lotan, R. (1980) Effects of vitamin A and its analogs (retinoids) on normal and neoplastic cells. Biochimica et Biophysica Acta 605: 3391Google ScholarPubMed
Madden, M., Ong, D.E., Summerbell, D. and Chytil, F. (1988) Spatial distribution of cellular binding protein to retinoic acid in the chick limb bud. Nature 335: 733735CrossRefGoogle Scholar
Mallia, A.K., Smith, J.E. and Goodman, D.S. (1975) Metabolism of retinol binding protein and vitamin A in hypervitaminosis A in the rat. Journal of Lipid Research 16: 180188Google Scholar
Merrill, A.H. Jr., Foltz, A.T. and Mccormick, D.B. (1991) Vitamins and cancer. In: Cancer and Nutrition (Eds Alfin-Slater, R.B. and Kritchevsky, D.), Plenum, New York pp. 261320Google Scholar
Mitrovic, M., Marusich, W.L. and Deutsch, D. (1969) Effect of high level supplemental vitamin A on avian leukosis agents in chicks. Poultry Science 48: 16331636CrossRefGoogle ScholarPubMed
Napoli, J.L. and Race, K.R. (1988) Biogenesis of retinoic acid from β-carotene. Differences between the metabolism of β-carotene and retinal. Journal of Biological Chemistry 263: 1737217377Google Scholar
NRC (1994) Nutrient Requirements for Poultry. 9th ed. National Academy Press, Washington, DCGoogle Scholar
Nockels, C.F., Ewing, D.L., Phetteplace, H., Ritacco, K.A. and Mero, K.W. (1984) Hypothyroidism: an early sign of vitamin A deficiency in chickens. Journal of Nutrition 114: 17331737CrossRefGoogle ScholarPubMed
Ongsakul, M., Sirisinha, S. and Lamb, A. (1985) Impaired clearance of bacteria and phagocytic activity in vitamin A deficient rats. Proceedings of the Society for Experimental Biology and Medicine 178: 204208CrossRefGoogle ScholarPubMed
Pasatiempo, M.G., Bowman, T.A., Taylor, C.E. and Ross, C.A. (1989) Vitamin A depletion and repletion: effects on antibody response to the capsular polysaccharide of Streptococcus pneumoniae, type III (SSS-III). American Journal of Clinical Nutrition 49: 501510Google Scholar
Petkovitch, M., Brand, N.J., Krust, A. and Chambon, P. (1987) A human retinoic acid receptor which belongs to the family of nuclear receptors. Nature 330: 444450Google Scholar
Rikhter, G. and Wiesner, J. (1987) Relationship between vitamin A supply of chicks and their susceptibility to field isolates of Eimevia tenella. Monatshefte fur Veterinarmedizin 42: 895896Google Scholar
Rikhter, G., Okhrimenko, K. and Vizner, I. (1989) Effect of dietary protein and vitamin A levels on the resistance of chickens to coccidiosis. Plitsevodstvo 10: 4143Google Scholar
Serman, V. and Mazija, H. (1985) Effects of nutrition on the strength of acquired immunity against Newcastle disease. IV. Role of vitamin A. Veterinarski Arhiv 55: 18Google Scholar
Shapiro, P.E. and Edelson, R.L. (1985) Effects of retinoids on the immune system. In: Retinoids: New Trends in Research and Thernpy (Ed. Saurat, J.), Karger, Basel pp. 225235Google Scholar
Sherr, E., Adelman, D.C., Saxon, A., Gilly, M., Wall, R. and Sidell, N. (1988) Retinoic acid induces the differentiation of B cell hybridomas from patients with common variable immunodeficiency. Journal of Experimental Medicine 168: 5571CrossRefGoogle ScholarPubMed
Sidell, N. and Ramsdell, F. (1988) Retinoic acid upregulates interleukin-2 receptors on activated human thymocytes. Cellular Immunology 115: 299309Google Scholar
Sidell, N., Taga, T., Hirano, T., Kishimoto, T. and Saxon, A. (1991) Retinoic acid induced growth inhibition of a human myeloma cell line via down regulation of IL-6 receptors. Journal of Immunology 146: 38093814CrossRefGoogle ScholarPubMed
Sijtsma, S.R., West, C.E., Rombout, J.H.W.M., Van Der Zijpp, A.J. and Van Der Zijpp, A.J. (1989a) The interaction between vitamin A status and Newcastle disease virus infection in chickens. Journal of Nutrition 119: 932939CrossRefGoogle ScholarPubMed
Sijtsma, S.R., West, C.E., Rombout, J.H.W.M., Van Der Zijpp, A.J. and Van Der Zijpp, A.J. (1989b) Effect of Newcastle disease virus infection on vitamin A metabolism in chickens. Journal of Nutrition 119: 940947Google Scholar
Sijtsma, S.R., Rombout, J.H.W.M., West, C.E., Van Der Zijpp, A.J. and Van Der Zijpp, A.J. (1990) Vitamin A deficiency impairs cytotoxic T lymphocyte activity in Newcastle disease virus infected chickens. Veterinary Immunology and Pathology 26: 191201CrossRefGoogle ScholarPubMed
Sijtsma, S.R., Rombout, J.H.W.M., Dohmen, M.J.W., West, C.E. and Van Der Zijpp, A.J. (1991) Effect of vitamin A deficiency on the activity of macrophages in Newcastle disease virus infected chickens. Veterinary Immunology and Immunopathology 27: 1727Google Scholar
Singh, S.P. and Donovan, G.A. (1973) A relationship between coccidiosis and dietary vitamin A levels in chickens. Poultry Science 52: 12951301Google Scholar
Singh, M. and Singh, V.M. (1978) Fatty liver in hypervitaminosis A; synthesis and release of hepatic triglycerides. American Journal of Physiology 234: E511–514Google ScholarPubMed
Sklan, D. (1983) Vitamin A absorption and metabolism in the chick: response to high dietary intake and tocopherol. British Journal of Nutrition 50: 401407CrossRefGoogle Scholar
Sklan, D. and Donoghue, S. (1982) Vitamin A response to high dietary vitamin A in the chick. Journal of Nutrition 112: 759765CrossRefGoogle ScholarPubMed
Sklan, D., Melamed, D. and Friedman, A. (1994) The effect of varying levels of dietary vitamin A on immune response in the chick. Poultry Science 73: 843847CrossRefGoogle ScholarPubMed
Sklan, D., Melamed, D. and Friedman, A. (1995) The effect of varying dietary concentrations of vitamin A on immune response in the turkey. British Poultry Science 36: 385392Google Scholar
Smith, J.E., Milch, P.O., Muto, Y. and Goodman, D.S. (1973) The plasma transport and metabolism of retinoic acid in the rat. Biochemical Journal 132: 821827CrossRefGoogle ScholarPubMed
Thaller, C. and Eichele, G. (1987) The identification and spatial distribution of retinoids in the developing chick limb bud. Nature 327: 625628CrossRefGoogle ScholarPubMed
Tengerdy, R.P. and Nockels, C.F. (1975) Vitamin E or vitamin A protects chickens against Escherichia coli infection. Poultry Science 54: 12921296Google Scholar
Umesono, K., Giguere, V., Glass, C.K., Rosenfeld, M.G. and Evans, R.M. (1988) Retinoic acid and thyroid hormone induce gene expression through a common responsive element. Nature 336: 262265CrossRefGoogle ScholarPubMed
Vasios, G.W., Gold, J.D., Petkovich, M., Chambon, P. and Gudas, L.J. (1989) A retinoic acid responsive element is present in the 5'-flanking region of the laminin B1 gene. Proceedings of the National Academy of Sciences USA 86: 9099–9013CrossRefGoogle ScholarPubMed
Wald, G. (1968) The molecular basis of visual excitation. Nature 291: 800807Google Scholar
Watson, R.R. and Rybski, J.A. (1988) Immunological response modification by vitamin A and other retinoids. In: Nutrition and Immunology, Alan Liss, New York pp. 8799Google Scholar
WestC,E. C,E., Rombout, J.H.W.M., Van Der Zijpp, A.J. and Sijtsma, S.R. (1991) Proceedings of the Nutrition Society 50: 251262Google Scholar
Wolbach, S.B. (1947) Vitamin A deficiency and excess in relation to bone growth. Journal of Bone and Joint Surgery 29: 171192Google Scholar
Wolbach, S.B. and Howe, P.R. (1925) Tissue changes following deprivation of fat soluble A vitamin. Journal of Experimental Medicine 42: 753777CrossRefGoogle ScholarPubMed
Wolf, G. (1990) Recent progress in vitamin A research: nuclear retinoic acid receptors and their interaction with gene elements. Journal of Nutritional Biochemistry 1: 284289Google Scholar
Wolf, G. (1991) The intracellular vitamin A binding proteins: an overview of their functions. Nutrition Reviews 49: 112Google Scholar
Yamamoto, M., Kitano, T., Oma, M., Hiyama, Y., Yumoto, S. and Matsui, M. (1988) Supplemental effects of retinoids on immune function in vitamin A deficient rats. Nutrition Research 8: 529538Google Scholar
Zelent, A., Krust, A., Petkovich, M., Kastner, P. and Chambon, P. (1989) Cloning of murine alpha and beta retinoic acid receptors and a novel receptor gamma predominantly expressed in skin. Nature 339: 714717Google Scholar