A combination of anti-bothropic and anti-crotalic sera has been reported to be more effective in neutralizing the effects of Bothrops jararacussu venom than anti-bothropic serum alone. The role of proteins from B. jararacussu venom in the horse immune response was evaluated via the analysis of cross-reactivity with homologous and heterologous sera. Many of the proteins in B. jararacussu venom were identified via 2D gel electrophoresis. Western blots revealed that anti-jararacussu showed higher reactivity to l-aminoxidase (LAOs) and snake venom metalloproteinase, (SVMPs) and weaker reactivity towards Snake venom serine proteases (SVSPs), PLA(2), C-type lectin and cysteine-rich proteins. Anti-jararaca preferentially recognized LAOs, SVMPs and SVSPs. Both of these sera failed to recognize low-molecular weight proteins. Anti-crotalic serum clearly recognized LAOs, C-type lectin, SVSP, cysteine-rich proteins, SVMP and Asp49-PLA(2). The cross-reactivity with anti-PLA(2) revealed the immunoreactivity of these antibodies to proteins with molecular masses in a range that is poorly recognized by other studied anti-sera. Our results suggest that the contribution of anti-crotalic serum to the neutralization of B. jararacussu by may be due to its cross-reactivity with proteins such as C-type lectins, SVSPs, Asp49-PLA(2). These results also reinforce the importance of neutralizing the highly toxic proteins inclusive those with low immunogenicity in commercial antivenom production to obtain a highly protective serum against snake venoms.
The benefits from treatment with antivenom sera are indubitable. However, the mechanism for toxin neutralization has not been completely elucidated. A mixture of anti-bothropic and anti-crotalic horse antivenom has been reported to be more effective in neutralizing the effects of Bothrops jararacussu snake venom than anti-bothropic antivenom alone. This study determined which regions in the three PLA₂s from B. jararacussu snake venom are bound by antibodies in tetravalent anti-bothropic and monovalent anti-crotalic commercial horse antivenom. Mapping experiments of BthTX-I, BthTX-II and BthA-I using two small libraries of 69 peptides each revealed six major IgG-binding epitopes that were recognized by both anti-bothropic and anti-crotalic horse antivenom. Two epitopes in BthTX-I were only recognized by the anti-bothropic horse antivenom, while anti-crotalic horse antivenom recognized four unique epitopes across the three PLA₂s. Our studies suggest that the harmful activities of the PLA₂s present in the venom of B. jararacussu are neutralized by the combinatorial treatment with both antivenom sera through their complementary binding sites, which provides a wide coverage on the PLA₂s. This is the first peptide microarray of PLA₂s from B. jararacussu snake venom to survey the performance of commercial horse antiophidic antivenom. Regions recognized by the protective antivenom sera are prime candidates for improved venom cocktails or a chimeric protein encoding the multiple epitopes to immunize animals as well as for designing future synthetic vaccines.
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