Abstract
Schistosoma japonicum insulin receptors (SjIRs) have been identified as encouraging vaccine candidates. Interrupting or blocking the binding between host insulin and the schistosome insulin receptors (IRs) may result in reduced glucose uptake leading to starvation and stunting of worms with a reduction in egg output. To further understand how schistosomes are able to exploit host insulin for development and growth, and whether these parasites and their mammalian hosts compete for the same insulin source, we identified insulin binding sites on the SjIRs. Based on sequence analysis and the predicted antigenic structure of the primary sequences of the SjIRs, we designed nine and eleven peptide analogues from SjIR-1 and SjIR-2, respectively. Using the Octet RED system, we identified analogues derived from SjIR-1 (10) and SjIR-2 (20, 21 and 22) with insulin-binding sequences specific for S. japonicum. Nevertheless, the human insulin receptor (HIR) may compete with the SjIRs in binding human insulin in other positions which are important for HIR binding to insulin. However, no binding occurred between insulin and parasite analogues derived from SjIR-1 (2, 7 and 8) and SjIR-2 (14, 16 and 18) at the same locations as HIR sequences which have been shown to have strong insulin binding affinities. Importantly, we found two analogues (1 and 3), derived from SjIR-1, and two analogues (13 and 15) derived from SjIR-2, were responsible for the major insulin binding affinity in S. japonicum. These peptide analogues were shown to have more than 10 times (in KD value) stronger binding capacity for human insulin compared with peptides derived from the HIR in the same sequence positions. Paradoxically, analogues 1, 3, 13 and 15 do not appear to contain major antigenic determinants which resulted in poor antibody responses to native S. japonicum protein. This argues against their future development as peptide-vaccine candidates.
Highlights
Schistosomiasis remains one of the most prevalent and chronically serious tropical parasitic diseases with an estimated 240 million people infected in 78 countries, and close to 800 million are at risk [1]
In order to identify parasite-specific insulin binding sites on SjIR-1 and 2, we synthesized a library of nine and 11 peptides, respectively, with an emphasis being placed on the extracellular regions of the insulin receptors (IRs) proteins (L1 through to the FnIII-2 domain, Fig 1) [16]
In addition to insulin binding sites I and II from SjIR-1 and 2, we identified analogue 10 from SjIR-1 and analogues 20, 21 and 22 from SjIR-2 which presented with binding activity but at a much weaker level when compared with analogues from binding sites I and II (Table 2)
Summary
Schistosomiasis remains one of the most prevalent and chronically serious tropical parasitic diseases with an estimated 240 million people infected in 78 countries, and close to 800 million are at risk [1]. A vaccine capable of reducing worm burdens and/or faecal egg output has historically been considered the “ultimate goal” and, in conjunction with PZQ treatment, has the potential to lead to a significant reduction in S. japonicum transmission, almost to the point of elimination [8]. Based on the fact that schistosome eggs are responsible for both pathology and transmission, and that female worms of S. japonicum produce a substantially higher daily egg output compared with other schistosome species, development of a transmission blocking vaccine against S. japonicum targeting parasite fecundity and egg viability is entirely relevant [9]
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