Identification and analysis of Eimeria nieschulzi gametocyte genes reveal splicing events of gam genes and conserved motifs in the wall-forming proteins within the genus Eimeria (Coccidia, Apicomplexa).

The genus Eimeria (Apicomplexa, Coccidia) provides a wide range of different species with different hosts to study common and variable features within the genus and its species. A common characteristic of all known Eimeria species is the oocyst, the infectious stage where its life cycle starts and ends. In our study, we utilized Eimeria nieschulzi as a model organism. This rat-specific parasite has complex oocyst morphology and can be transfected and even cultivated in vitro up to the oocyst stage. We wanted to elucidate how the known oocyst wall-forming proteins are preserved in this rodent Eimeria species compared to other Eimeria. In newly obtained genomics data, we were able to identify different gametocyte genes that are orthologous to already known gam genes involved in the oocyst wall formation of avian Eimeria species. These genes appeared putatively as single exon genes, but cDNA analysis showed alternative splicing events in the transcripts. The analysis of the translated sequence revealed different conserved motifs but also dissimilar regions in GAM proteins, as well as polymorphic regions. The occurrence of an underrepresented gam56 gene version suggests the existence of a second distinct E. nieschulzi genotype within the E. nieschulzi Landers isolate that we maintain.

Passive immunization with Eimeria tenella gametocyte antigen 56 (EtGAM56) specific antibodies and active immunization trial with the epitope containing peptide.

Eimeria species cause avian coccidiosis leading to substantial economic losses in the poultry industry. Hence, anticoccidial drugs and vaccines have been used to combat this devitalizing disease. An effective vaccine based on gametocyte recombinant proteins would be very useful in terms of cost, labor and ethics (no animal experimentation). A mouse derived monoclonal antibody against Eimeria tenella gametocyte antigen 56 (EtGAM56) was used to immunize peritoneally E. tenella infected chicken a reduction of oocyst shedding by up to 78% was observed. The epitope recognized by the monoclonal antibody was mapped, recombinant expressed and used to immunize chicken (rEtGAM56N). After rEtGAM56N intramuscular immunization and parasite challenge, clinical parameters like faecal oocyst output, body weight gain, lesion score, feed conversion rate and serum antibody response were assessed to test the efficacy of vaccination against experimental infection with E. tenella. Chicken immunized with rEtGAM56N and challenged with E. tenella oocysts showed a robust antibody response against the rEtGAM56N peptide but no considerable effects on oocyst output and clinical parameters (weight gain, lesion score, feed conversion rate) compared to the mock control group. This study demonstrates the complexity of an effective vaccination. The immunoprotective epitope might be a conformational epitope that was recognized by the monoclonal mouse antibody but only weakly by the antibodies produced against the linear peptide leading to a divergent outcome between the passive and active immunization.