Vaccination with a preparation based on recombinant cysteine peptidases and canine IL-12 does not protect dogs from infection with Leishmania infantum.

Cysteine peptidases (CPs) have been implicated in various processes central to the pathogenicity of Leishmania parasites, and are thought to be key factors in the host-parasite interaction. In order to fully evaluate the potential of the CPs as vaccine candidates, studies in natural host species are required. In the study we report here, recombinant L. infantum CPs CPA and CPB were used to vaccinate dogs. In order to induce an appropriate response against the antigens, recombinant canine IL-12 was added as an adjuvant either by itself or in combination with Quil A. After vaccination, dogs were given an intravenous challenge with promastigotes of L. infantum JPC strain. In both vaccinated groups (CPs with IL-12 or CPs with IL-12 and Quil A) CP-specific antibodies were detected after vaccination, indicating that there was a reaction to the vaccine. However, all dogs were found parasite-positive and all developed some degree of clinical leishmaniosis. The observed lack of efficacy of the candidate vaccines could be due, completely or in part, to a number of factors associated with the vaccine antigen, the adjuvant or host-parasite interactions. When compared to results from other studies, it seems less likely that the molecular conformation of the rCPs or rIL-12 caused this lack of efficacy. More plausible explanations are the dose and timing of the IL-12 application and the potentially different effects IL-12 induces as an adjuvant in either the murine or the canine leishmaniosis model.

An Eimeria vaccine candidate appears to be lactate dehydrogenase; characterization and comparative analysis.

An Eimeria acervulina protein fraction was identified which conferred partial protection against an E. acervulina challenge infection. From this fraction a 37 kDa protein was purified and its corresponding cDNA was cloned and shown to encode a lactate dehydrogenase (LDH). Full length cDNAs encoding LDH from two related species, E. tenella and E. maxima, were also cloned. The homology between the primary amino acid sequences of these three Eimeria LDH enzymes was rather low (66-80%), demonstrating an evolutionary divergence. The Plasmodium LDH crystal structure was used to generate a 3D-model structure of E. tenella LDH, which demonstrated that the many variations in the primary amino acid sequences (P. falciparum LDH and E. tenella LDH show only 47% identity) had not resulted in altered 3D-structures. Only a single LDH gene was identified in Eimeria, which was active as a homotetramer. The protein was present at similar levels throughout different parasitic stages (oocysts, sporozoites, schizonts and merozoites), but its corresponding RNA was only observed in the schizont stage, suggesting that its synthesis is restricted to the intracellular stage.