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Fasciola hepatica: secretion of a novel cathepsin L proteinase

Dowd, Andrew (1994) Fasciola hepatica: secretion of a novel cathepsin L proteinase. PhD thesis, Dublin City University.

Abstract
A 29 5 kDa cysteine proteinase was purified from medium m which mature Fasciola hepatica parasites were maintained. The N-terminal sequence (14 amino acid residues) of the purified protein is homologous to known cathepsin L proteinases, including a 27 kDa cathepsin L proteinase, also secreted by this parasite, which had been isolated previously in our laboratory (Smith e ta l , Mol Biochem Parasitol.,62,1-8,1993). The Nterminal sequences of the 29 5 and 27 kDa cathepsin L proteinases differ only in residue seven ( arginine and proline, respectively) Immunoblot studies, using antiserum that reacts with both cathepsin Ls, rule out the possibility of both enzymes ansing from a higher molecular sized parent molecule. The reaction kinetics of the two F hepatica cathepsin Ls on a variety of peptide substrates revealed that the two enzymes differ in their substrate specificity. Five peptide substrates that are cleaved with high affinity by the 29 5 kDa cathepsin L isolated m this study are not cleaved by the previously purified 27 kDa cathepsin L. The protein modifying reagent, tetramtromethane, affected the 29 5 kDa cathepsin L proteinase only, causing inactivation of the enzyme and changing its migration in polyacrylamide gels Our studies suggest that the two F hepatica cysteine proteinases represent two distinct subclasses within the cathepsin L class. The 29 5 kDa cathepsin L can cleave fibnnogen and produce a fibrin clot in vitro. This is the first demonstration of a cysteine proteinase with the ability to clot fibnnogen. The mechanism of clot formation of the cathepsin L was compared to bovine thrombin SDS-PAGE analysis of clots showed differences in enzyme activities between the two proteinases Cathepsin L was also not inhibited by the thrombin specific inhibitor hirudin Studies using peptides which prevent fibnn polymerisation showed that the fibrin clot formed by cathepsin L polymerises in a different manner to the clot formed by thrombin Clotting time assays in the presence of anti-polymerisation peptides and SDS-PAGE analysis of these clots showed that the cathepsin L fibrinogen cleavage site was located to the C-terminal of the thrombin cleavage site Therefore F hepatica cathepsin L forms a fibrin clot by a novel mechanism and may represent a means whereby F. hepatica may prevent excessive blood loss while migrating through host tissue.
Metadata
Item Type:Thesis (PhD)
Date of Award:1994
Refereed:No
Supervisor(s):Dalton, John P.
Uncontrolled Keywords:Proteinase; Parasitology; Fasciaola Hepatica
Subjects:Biological Sciences > Biotechnology
Humanities > Biological Sciences > Biotechnology
DCU Faculties and Centres:DCU Faculties and Schools > Faculty of Science and Health > School of Biotechnology
Use License:This item is licensed under a Creative Commons Attribution-NonCommercial-No Derivative Works 3.0 License. View License
ID Code:18955
Deposited On:24 Jul 2013 13:19 by Celine Campbell . Last Modified 24 Jul 2013 13:19
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