Hostname: page-component-78c5997874-ndw9j Total loading time: 0 Render date: 2024-11-15T15:23:19.638Z Has data issue: false hasContentIssue false
  • English
  • Français

The immune respone of plaice (Pleuronectes platessa L.) to the metacercariae of Cryptocotyle lingua and Rhipidocoytle johnstonei

Published online by Cambridge University Press:  06 April 2009

B. Cottrell
B. Cottrell
Affiliation:
Department of Environment studies, plymouth polutechnic, plymouth, Devon
Get access Rights & Permissions [Opens in a new window]

Extract

The humoral immune response of plaice to infestations of selected metacercariae was studied. Precipitating antibodies to both Cryptocotyle lingua and Rhipidocotyle johnstonei were demonstrated using agar geldiffusion techniques. Immunochemical investigations of these antibodies indicated they were macroglobulins, resembling immunaglobulin M(IgM) of mammals. The rate and magnitude of antibody production by the host was determined by the ambient temperature

Type
Research Article
Information
Parasitology , Volume 74 , Issue 1 , February 1977 , pp. 93 - 107
Copyright
Copyright © Cambridge University Press 1977

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Allen, F. W., &Mcdaniel, A. (1937). A study of the relationship of temperature to antibody formation in cold-blooded animals. Journal of Immunology 32, 143–9.CrossRefGoogle Scholar
Bisset, K. A. (1946). The effect of temperature on non-specific infections in fish. Journal of pathology and Bacteriology 58, 251–8CrossRefGoogle Scholar
Bisset, K. A. (1948). The effect of temperature upon antibody production in cold-blooded vertebrates. Journal of Pathology and Bacteriology 60, 8792.CrossRefGoogle ScholarPubMed
Clem, L. W. & Leslie, G. A. (1969). Phylogeny of immunoglobulin structure and function. In Immunology and Development ( ed. Adinolfi, M.) pp. 6288. Lavenham Press Ltd.Google Scholar
Clem, L. W. & Sigel, M. M. (1963). Comparative immunochemical and immunological reactions in marine fishes with soluble, viral and bacterial antigens. Federation Proceedings 22, 1138–49.Google ScholarPubMed
Clem, L. W. & Small, P. A. (1967). Phylogeny of immunoglobulin structure and function. I. Immunoglobulins of the lemon shark. Journal of Experimental Medicine 125, 893920.CrossRefGoogle ScholarPubMed
Cone, R. E. & Marchalonis, J. (1972). Cellular and humoral aspects of the influence of the environmental temperature on the immune response of poikilothermic vertebrates. Journal of Immunology 108, 952–7.CrossRefGoogle ScholarPubMed
Corbel, M. J. (1975). The immune response in fish; a review. Journal of Fish Biology 7, 539–53.CrossRefGoogle Scholar
Cottrell, B. J. (1975). The immune response of the plaice with particular emphasis on antigenic stimulation by tissue parasites. Ph.D. thesis, University of London.Google Scholar
Cushing, J. E. (1942). An effect of temperature upon antibody production in fish. Journal of Immunology 45, 123–9.CrossRefGoogle Scholar
Cushing, J. E. (1971). Immunology of fish. In Physiology of Fish, Vol. 4 ( ed. Hoare, W. S. and Randall, P.) New York and London: Academic Press.Google Scholar
Deutsch, H. F. & Morton, J. I. (1957). Dissociation of human serum macroglobulin. science 125, 600.CrossRefGoogle Scholar
Diconza, J. J. & Halliday, W. J. (1971). Relationship of catfish serum antibodies to immunoglobulin in mucus secreation. Australian Journal of Experimental Biology and Medical Science 49, 517–19.Google Scholar
Dineen, J. K. (1963 a). Immunological aspects of parasitism. Nature, London 197, 268–90.CrossRefGoogle ScholarPubMed
Dineen, J. K. (1963 b). Antigenic relationship between host and parasite. Nature, London 197, 471–2.CrossRefGoogle Scholar
Evelyn, T. P. T. (1971). The agglutinin response of sockeye salmon vaccinated intraperitoneally with a heat killed preparation of bacterium responsible for salmonid kidney disease. Journal of Wildlife Diseases 7, 328–35.CrossRefGoogle ScholarPubMed
Fine, J. & Drilhon, A. (1961). Existence de globulines de faible mobilité électrophorétique dans le sérum de l'anguille soumise ´ des injection répétées de sérum humain. Completes rendus hebdomadaries des séances de l' Académie des science 252, 3891–3.Google Scholar
Fish, L. A., Pollara, B. & Good, R. A. (1966). Characterization of an immunoglobulin from the paddle fish (Polyodon spathula) In Phylogency of Immunity (ed. Smith, R. T., Miescher, P. A., Good, R. A.), pp 99104. Gainesville: University of Florida Press.Google Scholar
Fletcher, T. C. & Grant, P. T. (1969). Immunoglobulins in the serum and mucus of plaice, pleuronects platessa. Biochemical Journal 115, 65.CrossRefGoogle ScholarPubMed
Fletcher, T. C. & White, A. (1973). Antibody production in plaice (Pleuronecats platessa) after oral and parental immunistaion with Vibrio anguillarum antigens. Aquaculture 1, 417–28.CrossRefGoogle Scholar
Harris, J. E. (1972). The immune response of a cyprinid fish to infections of the acanthocephalan Pomphorhynchus laevis. Internationl Journal for Parasitology 2, 459–67.CrossRefGoogle Scholar
Harris, J. E. & Cottrell, B. J. (1974). Fish serum precipitins to helminth antigens. Proceedings of 3rd International Congress of Parasitology, München 2, 1045.Google Scholar
Hines, R. S. & Spira, D. T. (1974). Ichthyophthiriasis in the mirror carp Cyprinus carpio (L.). V. Acquired immunity. Journal of Fish Biology 6, 373–8.CrossRefGoogle Scholar
Iddon, S. R. (1973). Host-parasite relations in marine teleosts. M.Phil. thesis, Plymouth Polytechnic.Google Scholar
Ingram, G. A. (1974). The primary immune response of the brown trout (Salmo trutta) to injection with different antigens. M.Sc. thesis, University of Salford.Google Scholar
Jahn, F & Kuhn, K. (1932). The life history of Epibdella melleni parasitic on marine fishes. Biological Bullestin 62, 89109.CrossRefGoogle Scholar
Klontz, G. W., Yasutake, W. T. & Ross, A. J.(1966). Bacterial diseases of the salmonidae in the western United States: Pathogenesis of furnculosis in rainbow trout. American journal of Veterinary Research 27, 1455–60.Google Scholar
Litman, G. W., Frommel, D., Finstad, J. & Good, R. A. (1971). The evolution of the immune response. IX. Immunoglobulins of the bowfin: purification and characterisation. Journal of Immunology 106, 747–54.CrossRefGoogle Scholar
MacKenzie, K. & Glbson, D. I. (1970). Ecological studies of some parasites of plaice, P. platessa L., and flounder P. flesus (L.). In Aspects of Fish Parasitology (ed. Taylor, E. R., Muller, R.), pp. 142. Blackwell Scientific Publications.Google Scholar
Marchalonis, J. (1971), Isolation and partical characterisation of immunoglobulins of goldfish (Carassius auratus) and (carp Cyprinus carpio). Immunology 20, 161–73.Google Scholar
Matthews, R. A. (1968). Studies on the helminth parasites of some marine (teleost) fishes. Ph.D. thesis, University of Wales, Aberystwyth.Google Scholar
Molnar, K. & Berczi, I. (1965). Demonstration of parasite-specific antibodies in fish blood by agar-gel diffusion precipitation test. Zeitschrift für Immunitäts Allergieforschung 129, 263–7.Google Scholar
Nigrelli, R. F. & Breder, C. M. (1934). The susceptibility and immunity of certain marine fishes to Epibdella melleni, a monogenetic trematode. Journal of Parasitology 20, 259–69.CrossRefGoogle Scholar
O., Ouchterlony (1948). Antigen-antibody reactions in gels. Acta Pathologica et Microbiologica Scandinavica 26, 507–15.Google Scholar
Phillips, A. M., Podoliak, H. A., D., Brockway & G., Balze (1957). The nutrition of trout. Fisheries Research Bulletin. New York Conservation Department No. 20.Google Scholar
F., Pliszka (1939). Untersuchungen über die Agglutinine bei Karpfen. Vorläufige Mitteilung, Zentralblatt für Bacteriologie I Abteilung Originale 143, 262.Google Scholar
Reuling, F. H. (1919). Acquired immunity to an animal parasite. Journal of Infectious Diseases 24, 337–46.CrossRefGoogle Scholar
Riley, J. D. (1973). Movements of ‘O’ group plaice Pleuronects platessa, as shown by latex tagging. Journal of Fish Biology 5, 323–43.CrossRefGoogle Scholar
Sargent, J. R. (1969). Methods in Zone Electrophoresis. BDH Chemicals Ltd. (England).Google Scholar
Sindermann, C. J. & Mairs, D. F. (1958). Serum Protein changes in diseased sea-herring. Anatomical Record 131, 599600.Google Scholar
K., Sorvachev, V., Zadvorochnov & F., Isalev (1962). On the immunization of fish Biokhimiya 27, 170–4.Google Scholar
Sprent, J. F. A. (1969). Evolutionary aspects of immunity in zooparasitic infections. In Immunity to Parasitic Animals, vol. 1 ( ed. Jackson, G. J., Herman, R. and Singer, I.). New York: Appleton-Century-Crofts.Google Scholar
Stunkard, H. W. (1930). The life cycle of Cryptocotyle lingua (Creplin) with notes on the physiology of the metacercariae. Journal of Morphology and Physiology 50, 143–83.CrossRefGoogle Scholar
Summerfelt, R. C. (1966). Identification of a serum protein with antibody activity. Bulletin of the Wildlife Diseases Association 2, 2330.CrossRefGoogle Scholar