Approximately two billion people are infected with helminths worldwide. In order to develop a vaccine against these pathogens, more needs to be known about the immune response to helminths. Eosinophils are important for resistance to some helminth species and their recruitment to infected tissues, attachment to parasites and degranulation may all be critical processes for immunity. Complement may contribute to these processes via generation of chemotactic factors (C3a and C5a) or opsonisation of the parasite with C3b/iC3b. The importance of complement during helminth infection is unclear, though complement does promote leukocyte-mediated killing of several helminth species in vitro. The aim of the present study was to investigate the role of complement in immunity of mice to Nippostrongylus brasiliensis, with a focus on whether complement facilitates eosinophildependent resistance to this parasite. A new fluorescence-based method for quantifying in vitro complement deposition and leukocyte adherence on N. brasiliensis was developed. C3 from human serum was deposited on infective-stage L3 via the classical or lectin complement pathways. In contrast, the alternative complement pathway mediated binding of mouse C3 and eosinophil-rich mouse peritoneal leukocytes to L3. Interestingly, the ability of complement and leukocytes to bind to the parasite changed as it matured. Larvae recovered from the skin 30 min post-injection (p.i.) were coated with C3, however those harvested 150 min p.i. exhibited reduced C3 binding capacity. Binding of C3 and eosinophils to larvae recovered from the lungs 24-48 h p.i. (L4) was also diminished compared to that seen on L3. Adult intestinal worms bound C3 and leukocytes only when treated ex vivo with serum and cells. Mice lacking in classical (C1q-deficient), alternative (factor B-deficient) or all complement pathways (C3-deficient) were then employed to determine if complement was important for resistance of mice to N. brasiliensis. IL-5 Tg mice deficient in individual complement genes were generated to assess whether complement contributed to eosinophildependent resistance to the parasite. Factor B deficient mice exhibited impaired C3 deposition on larvae, eosinophil recruitment, eosinophil degranulation and larval aggregation in the skin 30 min p.i. Eosinophil recruitment was similarly abolished by treatment of mice with the C5aR inhibitor PMX53. However at 150 min p.i., larval aggregation, eosinophil and neutrophil recruitment, leukocyte adherence and eosinophil degranulation were largely complement-independent. Ablation of factor B or C3 caused minor but significant increases in lung-larval burden during primary, but not in secondary, infections. Critically, a lack of C3 or factor B in IL-5 Tg mice failed to greatly impair the strong innate anti-parasite resistance typical of these animals, suggesting that eosinophils can provide immunity to N. brasiliensis infection in the absence of complement. This was unexpected, given the evidence from this and previous studies which suggested that in vitro, complement is important for promoting eosinophil-dependent killing of N. brasiliensis and other helminth species. The mechanism(s) by which eosinophils kill N. brasiliensis remain unknown, but may involve the coordination of the complement system with complement-independent factors that act in the early stages of infection. Critically, the influence of complement is limited, because soon after entry into the host, the parasite develops the ability to resist complement activation. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1311182 / Thesis (Ph.D.) -- University of Adelaide, School of Molecular and Biomedical Science, 2008
| Identifer | oai:union.ndltd.org:ADTP/264536 |
| Date | January 2008 |
| Creators | Giacomin, Paul R. |
| Source Sets | Australiasian Digital Theses Program |
| Detected Language | English |
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