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  • Title: Trypanosoma lewisi: restriction of alternative complement pathway C3/C5 convertase activity.
    Author: Sturtevant JE, Balber AE.
    Journal: Exp Parasitol; 1987 Jun; 63(3):260-71. PubMed ID: 3556206.
    Abstract:
    The rat parasite Trypanosoma lewisi was incubated in vitro with rat or human serum, washed, and extracted in detergent. Extracts were fractionated by electrophoresis in denaturing gels, transferred to nitrocellulose, allowed to renature, then immunoblotted with polyclonal antibodies to rat complement component C3 and human complement components C3, C5, and factor B. Molecules that reacted with these antibodies were detected in the extracts. Fragments of rat C3 were detected in extracts of parasites that had not been exposed to serum in vitro. Additional complement deposition occurred during in vitro incubations; human complement components deposited in vitro could be distinguished from rat components deposited in vivo. Complement deposition in vitro required magnesium ions and did not occur when heat inactivated serum was used. Components reacting with antibodies to human C3 included a group of bands with molecular weights higher than C3 alpha or beta chains. Blotting with affinity purified, chain specific antibodies demonstrated that a 68 kDa component on parasites is C3 beta and that a 44 kDa molecule is derived from C3 alpha. A 73 kDa component that was difficult to resolve from C3 beta is probably also a C3 alpha fragment. This suggests that an inactive iC3b-like molecule is present on parasites. Kinetic studies showed that cleavage of C3 alpha is rapid and that the amount of C3 alpha fragments and C3 beta on intact parasites reached a steady state after 15 min. When parasites were trypsinized prior to incubation in C5 or C6 deficient serum, the rate and extent of C3 and C5 deposition increased. Unprocessed C3 alpha' and C5 alpha' chains were detected. Trypsinized parasites were lysed by the alternative complement pathway in normal serum. Intact parasites could be lysed by complement in the presence of antibody. The data support our previous suggestion that trypsin sensitive surface proteins on intact T. lewisi limit alternative pathway activity by restricting C3/C5 convertase activity.
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