Abstract
Trypanosoma cruzi calreticulin (TcCRT), described in our laboratory, retains several important functional features from its vertebrate homologues. We have shown that recombinant TcCRT inhibits the human complement system when it binds to the collagenous portion of C1q. The generation of classical pathway convertases and membrane attack complexes is thus strongly inhibited. In most T. cruzi-infected individuals, TcCRT is immunogenic and mediates the generation of specific antibodies. By reverting the C1q / TcCRT interaction, a parasite immune evasion strategy, these antibodies contribute to the host/parasite equilibrium. In an in vitro correlate of this situation, we show that the Clq/TcCRT interaction is inhibited by F(ab')2 polyclonal anti-TcCRT IgG fragments. It is therefore feasible that in infected humans anti-TcCRT antibodies participate in reverting an important parasite strategy aimed at inhibiting the classical complement pathway. Thus, membrane-bound TcCRT interacts with the collagenous portion Clq, and this Clq is recognized by the CD91-bound host cell CRT, thus facilitating parasite internalization. Based on our in vitro results, it could be proposed that the in vivo interaction between TcCRT and vertebrate Clq could be inhibited by F(ab')2 fragments anti-rTcCRT or against its S functional domain, thus interfering with the internalization process.
Highlights
Trypanosoma cruzi (T. cruzi) is a protozoan parasite that causes Chagas’ disease, a major public health problem in Latin America (Fernández, 2002)
We have shown that recombinant T. cruzi calreticulin (TcCRT) inhibits the human complement system when it binds to the collagenous portion of C1q
Reactivity of the two experimental antisera, their respective preimmune sera and the serum from the rabbit immunized with Complete Freund’s Adjuvant (CFA) was evaluated by enzyme-linked immunosorbent assay (ELISA) and immuno-Western blotting (IWB) against recombinant TcCRT (rTcCRT), TcS and TcR domains (Ferreira et al, 2004b) and whole epimastigote extract
Summary
Trypanosoma cruzi (T. cruzi) is a protozoan parasite that causes Chagas’ disease, a major public health problem in Latin America (Fernández, 2002). We proposed that Tc45 is calreticulin from T. cruzi, an electrophoretic dimorphic protein with the coding genes located in variable numbers of chromosomes (Aguillón et al, 1995; Aguillón et al, 2000). TcCRT inhibits in vitro the classical pathway of the human complement system (Ferreira et al, 2003; Ferreira et al, 2004b), with possible immune evasion consequences. Most likely, this effect occurs in vivo, given the presence of TcCRT on the parasite surface (Ferreira et al, 2004b; SoutoPadron et al, 2004)
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