Hostname: page-component-586b7cd67f-vdxz6 Total loading time: 0 Render date: 2024-11-26T05:01:32.410Z Has data issue: false hasContentIssue false

Antibody responses to fluke cysteine proteinases in Paragonimus- and Fasciola-infected rats

Published online by Cambridge University Press:  05 June 2009

T. Ikeda*
Affiliation:
Department of Medical Zoology, Kanazawa Medical University, Uchinada, Ishikawa, 920-02 Japan
*
*Fax: +81 76 286 0224 E-mail: [email protected]

Abstract

IgG and IgM antibody responses to fluke cysteine proteinases in Paragonimus ohirai- and Fasciola sp.-infected rats were followed by means of cystatin capture ELISA using fluke excretory-secretory products for 10 weeks after infection. The specific IgG antibodies were detectable at week 2 postinfection in all P. ohirai-infected and some Fasciola-infected rats. Levels of specific IgG antibodies increased rapidly between week 2 and 6, and slightly thereafter, in both infected groups. From week 3, specific IgG antibody levels were higher in Fasciola-infected than P. ohirai-infected rats. Sera from infected rats did not react with heterologous cysteine proteinases throughout the infection periods. In both infected groups, the kinetic patterns of specific IgM antibody responses were similar to those of specific IgG antibody responses although the ELISA levels of the IgM antibody responses were much lower. In abnormal infections with P. ohirai metacercariae x-irradiated at 2 krad, the specific IgG antibodies were detectable at week 2 postinfection with similar ELISA values to normal P. ohirai infection, but thereafter increased little. In infections with P. westermani, for which the rat is not a suitable host, even stunted worms induced a comparable specific IgG antibody response, although the response was lower than in normal infections with P. ohirai. These results indicate that cystatin capture ELISA can distinguish clearly between Paragonimus and Fasciola infections which show immunodiagnostic cross-reactivity and is useful even in the early stages of the infection and in the infection of unsuitable hosts.

Type
Research Papers
Copyright
Copyright © Cambridge University Press 1998

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

Ando, R. (1920) Supplement of the experimental infection with lung fluke to the small animals. Iji Shinbun 1052, 963994. 1054, 1110–1133.Google Scholar
Beaver, P.C., Jung, R.C. & Cupp, E.W. (1984) Amphistomate and distomate flukes, pp. 449487 in Clinical parasitology. 9th edn.Lea & Febiger.Google Scholar
Chappell, C.L. & Dresden, M.H. (1988) Antibody response to a purified parasite proteinase (SMw32) in Schistosoma mansoni infected mice. American Journal of Tropical Medicine and Hygiene 39, 6673.CrossRefGoogle ScholarPubMed
Chappell, C.L., Dresden, M.H., Gryseels, B. & Deelder, A.M. (1990) Antibody response to Schistosoma mansoni adult worm cysteine proteinases in infected individuals. American Journal of Tropical Medicine and Hygiene 42, 335341.Google Scholar
Hillyer, G.V. & Santiago de Weil, N. (1979) Use of immunologic techniques to detect chemotherapeutic success in infections with Fasciola hepatica. II. The enzyme linked immunosorbent assay in infected rats and rabbits. Journal of Parasitology 65, 680684.Google Scholar
Ikeda, T. & Fujita, K. (1980) IgE in Paragonimus ohirai- infected rats: relationship between titer, migration route, and parasite age. Journal of Parasitology 66, 197204.CrossRefGoogle ScholarPubMed
Ikeda, T. & Tani, S. (1984) The effect of x-irradiation of metacercariae on infection of rats with Paragonimus ohirai. Japanese Journal of Parasitology 33, 377384.Google Scholar
Ikeda, T. & Tani, S. (1988) Induction of secondary IgE antibody response in rats immunized with x-irradiated metacercariae of Paragonimus ohirai. International Archives of Allergy and Applied Immunology 85, 213218.CrossRefGoogle ScholarPubMed
Ikeda, T., Oikawa, Y. & Nishimura, T. (1996) Enzyme-linked immunosorbent assay using cysteine proteinases for immunodiagnosis of human paragonimiasis. American Journal of Tropical Medicine and Hygiene 55, 434437.CrossRefGoogle ScholarPubMed
Kanzaki, T., Tanaka, M., Nozaki, T., Kanazawa, T., Kobayashi, M., Yokogawa, M. & Yoshida, S. (1985) Early clinical symptoms and signs of paragonimiasis westermani, time course when intradermal test with Paragonimus westermani antigen turns positive and effects of praziquantel to paragonimiasis. Japanese Journal of Thoracic Diseases 23, 368374.Google ScholarPubMed
Lee, O.R. & Chang, J.K. (1986) ELISA of paragonimiasis in cat by crude and purified antigens of Paragonimus westermani. Korean Journal of Parasitology 24, 187193.CrossRefGoogle ScholarPubMed
Levine, D.M., Hillyer, G.V. & Flores, S.I. (1980) Comparison of counterelectrophoresis, the enzyme-linked immunosorbent assay, and kato fecal examination for the diagnosis of fascioliasis in infected mice and rabbits. American Journal of Tropical Medicine and Hygiene 29, 602608.CrossRefGoogle Scholar
Maciewicz, R.A. & Etherington, D.J. (1988) A comparison of four cathepsins (B, L, N and S) with collagenolytic activity from rabbit spleen. Biochemical Journal 256, 433440.CrossRefGoogle Scholar
Miyazaki, I. (1946) Studies on the lung fluke. (XII) Comparison of the development of Paragonimus ohirai Miyazaki, 1939 and Paragonimus westermani in the rats. Report of Kagoshima Medical College 2, 1721.Google Scholar
Norimatu, Y. (1986) Human paragonimiasis in Japan. Respiration Research 5, 144151.Google Scholar
Pfister, K., Daveau, C.H. & Ambroise-Thomas, P. (1984) Partial purification of somatic and excretory-secretory products of adult Fasciola hepatica and their application for the serodiagnosis of experimental and natural fascioliasis using an ELISA. Research in Veterinary Science 37, 3943.Google Scholar
Yamasaki, H., Aoki, T. & Oya, H. (1989) A cysteine proteinase from the liver fluke Fasciola spp.: purification, characterization, localization and application to immunodiagnosis. Japanese Journal of Parasitology 38, 373384.Google Scholar
Yokogawa, M., Yoshimura, H., Sano, M., Okura, T. & Tsuji, M. (1962) The route of migration of the larva of Paragonimus westermani in the final hosts. Journal of Parasitology 48, 525531.CrossRefGoogle ScholarPubMed