Abstract |
Proteases catalyse the cleavage of internal peptide bonds within peptides and proteins. They are classified into four major classes and are involved in a broad range of eukaryotic processes. Proteases have also been found to play a number of critical roles in the virulence of pathogenic agents, particularly of nematode parasites. Parasitic proteases are involved in different aspects of host-parasite interactions. They facilitate the invasion of host tissues and allow nutrition as well as the survival of the parasite in its host. Proteases also participate in the parasite's evasion from the host's immune response. The functional diversity and complexity of these enzymes are described in this review, with a particular focus on the principally identified proteases of four helminths: Schistosoma sp., Fasciola sp., Taenia sp. and Haemonchus sp. Some of these proteases, especially the cysteine proteases secreted by the parasitic trematode Fasciola hepatica, have been successfully tested in experimental immunodiagnosis. Proteases identified in different parasites are currently under study for a use as recombinant vaccines. In this respect, proteases are proposed as major potential targets for immunotherapy and chemotherapy against parasitic diseases.
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Authors | C Trap, P Boireau |
Journal | Veterinary research
(Vet Res)
2000 Sep-Oct
Vol. 31
Issue 5
Pg. 461-71
ISSN: 0928-4249 [Print] England |
Vernacular Title | Les protéases chez les helminthes. |
PMID | 11050741
(Publication Type: English Abstract, Journal Article, Review)
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Chemical References |
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Topics |
- Animals
- Endopeptidases
(immunology, physiology)
- Fasciola
(enzymology, pathogenicity, physiology)
- Haemonchus
(enzymology, pathogenicity, physiology)
- Host-Parasite Interactions
- Humans
- Immunotherapy, Active
- Parasitic Diseases
(prevention & control, therapy)
- Schistosoma
(enzymology, pathogenicity, physiology)
- Taenia
(enzymology, pathogenicity, physiology)
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