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Immunity to Onchocerca lienalis microfilariae in mice

II. Effects of sensitization with a range of heterologous species

Published online by Cambridge University Press:  05 June 2009

Simon Townson ,
G. S. Nelson  and
A. E. Bianco
Simon Townson*
Affiliation:
London School of Hygiene and Tropical Medicine, Department of Medical HeMnthology Winches Farm Field Station, 395 Hatfield Road, St. Albans Herts AL4 OXQ, UK
G. S. Nelson*
Affiliation:
London School of Hygiene and Tropical Medicine, Department of Medical HeMnthology Winches Farm Field Station, 395 Hatfield Road, St. Albans Herts AL4 OXQ, UK
A. E. Bianco*
Affiliation:
London School of Hygiene and Tropical Medicine, Department of Medical HeMnthology Winches Farm Field Station, 395 Hatfield Road, St. Albans Herts AL4 OXQ, UK
*
Commonwealth Institute of Parasitology, 395A Hatfield Road, st. Albans, Herts. AL4 OXQ, UK.
Commonwealth Institute of Parasitology, 395A Hatfield Road, st. Albans, Herts. AL4 OXQ, UK.
Commonwealth Institute of Parasitology, 395A Hatfield Road, st. Albans, Herts. AL4 OXQ, UK.
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Abstract

The model of Onchocerca lienalis microfilariae (mff) injected into CBA and T.O. strains of mice has been used to examine immunity to skin-dwelling microfilariae following exposure to a range of species oF nelmmms Mice which had received a primary infection with O. cervicalis mff were significantly resistant to challenge with O. lienalis mfT(58% reduction relative to challenge controls). Immunization with the uterine contents (eggs and mff) of O. lienalis, O. gutturosa or O. volvulus conferred equivalent levels of protection agains challenge with O. lienalis mff (66 to 75%). Similar results were obtained with immunizations in mice that employed either fresh or freeze-killed eggs of O. gutturosa. Significant reductions in the recoveries of O. lienalis mff were also demonstrated following the intraperitoneal implantation of adult male worms of O. gutturosa (30 to 52%), the adults of either sex of Dipetalonema viteae (60%), or after infection witn Trichinella spiralis (27 to 81%). Infections with the trematode, Schistosoma mansoni, had a negligible effect on mff recoveries. It is concluded that partial resistance in mice to Onchocerca mff may be stimulated by factors, yet to be determined, that are neither stage nor species-specific.

Type
Research Article
Information
Journal of Helminthology , Volume 59 , Issue 4 , December 1985 , pp. 337 - 346
Copyright
Copyright © Cambridge University Press 1985

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References

REFERENCES

Bianco, A. E, Ham, P., El Sinnary, K. & Nelson, G. S. (1980) Large scale recovery of Onchocerca microfilariae from naturally infected cattle and horses. Transactions of the Royal Society of Tropical Medicine and Hygiene, 74, 109.Google Scholar
Cox, F. E. G. (1978) Specific and non-specific immunisation against parasitic infections. Nature, 273, 623626.CrossRefGoogle Scholar
Denham, D. A. (1968) Immunity to Trichinella spiralis. III.The longevity of the intestinal phase of the infection in mice. Parasitology, 56, 745751.CrossRefGoogle Scholar
Doenhoff, M. J., Musallam, R., Bain, J. & Mcgregor, A. (1979) Schistosoma mansoni infections in T-cell deprived mice, and the ameliorating effect of administering homologous chronic infection serum. I. Pathogenesis. American Journal of Tropical Medicine and Hygiene, 28, 260273.CrossRefGoogle ScholarPubMed
Forsyth, K. P., Copeman, D. B., Abbot, A. P.Anders, R. F. & Mitchell, G. F. (1981) Identification of radioiodinated cuticular proteins and antigens of Onchocerca gibsoni microfilariae. Acta Tropica, 38, 329342.Google Scholar
Haque, A., Camus, D., Ogilvie, B. M., Capron, M., Brazin, H. & Capron, A. (1981) Dipetalonema viteae infective larvae reach reproductive maturity in rats immunodepressed by prior exposure to Schistosoma mansoni or its products and in congenitally athymic rats. Clinical and Experimental Immunology, 43, 19.Google ScholarPubMed
Kazura, J. W. & Davis, R. S., (1982) Soluble Brugia malayi microfilarial antigens protect mice against challenge by an antibody dependent mechanism. Journal of Immunology, 128, 17921796.CrossRefGoogle ScholarPubMed
Lloyd, S.. (1981) Progress in immunisation against parasitic helminths. Parasitology, 83, 225242.CrossRefGoogle ScholarPubMed
Maizels, R. M., Philipp, M. & Ogilvie, B. M. (1982) Molecules on the surface of parasitic nematodes as probes of the immune response in infection. Immunological Reviews, 61, 109136.CrossRefGoogle ScholarPubMed
Nelson, G. S. (1966) The pathology of filarial infections. Helminthological Abstracts, Series A, 35, 311336.Google Scholar
Nelson, G. S. (1974) Zooprophylaxis with special reference to schistosomiasis and filariasis. In: Parasitic Zoonoses (Editor, Soulsby, E. J. L.) Academic Press: London.Google Scholar
Nelson, G. S. & Mukundi, J. (1963) A strain of Trichinella spiralis from Kenya of low infectivity to rats and pigs. Journal of Helminthology, 37, 329338.CrossRefGoogle ScholarPubMed
Nelson, M., Nelson, D. S. & Zaman, V. (1971) Detection of antigens on filarial larvae by means of immune adherence. Experientia, 27, 191192.Google Scholar
Oothuman, P., Denham, D. A., Mcgreevy, P. B., Nelson, G. S. & Rogers, R. (1979) Successful vaccination of cats against Brugia pahangi with larvae attenuated by irradiation with 10 K rads of Cobalt 60. Parasite Immunology, 1, 209216.CrossRefGoogle Scholar
Storey, D. M. & Al-Mukhtar, A. S. (1982) Vaccination of jirds, Meriones unguiculatus, against Litomosoides carinii and Brugia pahangi using irradiated larvae of L. carinii. Tropenmedizin und Parasitologie, 33, 2324.Google Scholar
Terry, R. J. (1978) Immunodepression in parasite infections. In: Immunity in Parasitic Diseases, 161178. Inserm: Paris.Google Scholar
Townson, S. & Bianco, A. E. (1982a) Experimental infection of mice with the microfilariae of Onchocerca lienalis. Parasitology, 85, 283293.CrossRefGoogle ScholarPubMed
Townson, S. & Bianco, A. E. (1982b) Immunization of calves against the microfilariae of Onchocerca lienalis. Journal of Helminthology, 56, 297303.Google Scholar
Townson, S., Bianco, A. E., Doenhoff, M. J. & Muller, R. L. (1984) Immunity to Onchocerca lienalis microfilariae in mice. I. Resistance induced by the homologous parasite. Tropenmedizin und Parasitologie, 35, 202208.Google Scholar
Warren, K. S. (1978) Dynamics of host responses to parasite antigens. Schistosomiasis and Trichinosis. In: Immunity in Parasitic Diseases, 2538. Inserm: Paris.Google Scholar
Weiss, N. (1970) Parasitologischc und immunbiologischc Untersuchungen über die durch Dipetalonema viteae erzeugte Nagetierfilariose. Acta Tropica, 27, 219259.Google Scholar
Weiss, N. & Tanner, M. (1979) Studies on Dipetalonema viteae. 3. Antibody dependent cell mediated destruction of microfilariae in vivo. Tropenmedizin und Parasitologie, 30, 7380.Google ScholarPubMed
Wong, M. M. (1974) Experimental dirofilariasis in macaques. Susceptibility and host responses to D. immitis the dog heartworm. Transactions of the Royal Society of Tropical Medicine and Hygiene, 68, 479490.CrossRefGoogle Scholar
Wong, M. M., Suter, P. F., Rhode, E. A. & Guest, M. F. (1973) Dirofilariasis without circulating microfilariae: a problem in diagnosis. Journal of the American Veterinary Medical Association, 162, 133139.Google Scholar
Worms, M. J., Terry, R. J. & Terry, A. (1961) Dipetalonema viteae—filarial parasite of the jird, Meriones libycus. I. Maintenance in the laboratory. Journal of Parasitology, 47, 963970.Google Scholar