A conserved motif in the immune-subdominant RAP-1 related antigen of Babesia bovis contains a B-cell epitope recognized by antibodies from protected cattle.

Introduction: Babesia bovis, a tick-borne apicomplexan parasite causing bovine babesiosis, remains a significant threat worldwide, and improved and practical vaccines are needed. Previous studies defined the members of the rhoptry associated protein-1 (RAP-1), and the neutralization-sensitive rhoptry associated protein-1 related antigen (RRA) superfamily in B. bovis, as strong candidates for the development of subunit vaccines. Both RAP-1 and RRA share conservation of a group of 4 cysteines and amino acids motifs at the amino terminal end (NT) of these proteins. Methods and results: Sequence comparisons among the RRA sequences of several B. bovis strains and other Babesia spp parasites indicate a high level of conservation of a 15-amino acid (15-mer) motif located at the NT of the protein. BlastP searches indicate that the 15-mer motif is also present in adenylate cyclase, dynein, and other ATP binding proteins. AlphaFold2 structure predictions suggest partial exposure of the 15-mer on the surface of RRA of three distinct Babesia species. Antibodies in protected cattle recognize a synthetic peptide representing the 15-mer motif sequence in iELISA, and rabbit antibodies against the 15-mer react with the surface of free merozoites in immunofluorescence. Discussion and conclusion: The presence of the 15-mer-like regions in dynein and ATP-binding proteins provides a rationale for investigating possible functional roles for RRA. The demonstrated presence of a surface exposed B-cell epitope in the 15-mer motif of the B. bovis RRA, which is recognized by sera from protected bovines, supports its inclusion in future subunit epitope-based vaccines against B. bovis.

Comparative efficacy of buparvaquone and imidocarb in inhibiting the in vitro growth of Babesia bovis.

Introduction: B. bovis is an apicomplexan parasite responsible for bovine babesiosis, a tick-borne disease with a worldwide impact. The disease remains inefficiently controlled, and few effective drugs, including imidocarb dipropionate (ID), are currently available in endemic areas. The objective of this study was to evaluate whether buparvaquone (BPQ), a drug currently used to treat cattle infected with the Babesia-related Theileria spp. parasites, could be active against Babesia parasites. Herein, we compared the effect of ID and BPQ on B. bovis growth in vitro erythrocyte culture. Methods: We compared the effect of ID and BPQ on the culture-adapted Texas T2Bo strain of B. bovis. In vitro cultured parasites were incubated with ID and BPQ at two starting parasitemia levels (PPE), 0.2% and 1%. In vitro cultured parasites were treated with ID or BPQ at concentrations ranging from 10 to 300 nM, during 4 consecutive days. Parasitemia levels were daily evaluated using microscopic examination. Data was compared using the independent Student's t-test. Results and discussion: Both ID and BPQ significantly inhibited (p < 0.05) the growth of B. bovis, regardless of the initial parasitemia used. At 1% parasitemia, BPQ had lower calculated inhibitory concentration 50 (IC50: 50.01) values than ID (IC50: 117.3). No parasites were found in wells with 0.2% starting parasitemia, treated previously with 50 nM of BPQ or ID, after 2 days of culture without drugs. At 1% parasitemia, no parasite survival was detected at 150 nM of BPQ or 300 nM of ID, suggesting that both drugs acted as babesiacidals. Conclusion: Overall, the data suggests that BPQ is effective against B. bovis and shows a residual effect that seems superior to ID, which is currently the first-line drug for treating bovine babesiosis globally.

Characterization and gene expression of Babesia bovis elongation factor-1alpha.

Elongation factor 1 alpha (EF-1alpha) is a constitutively expressed, abundant protein that is a key element in eukaryotic protein translation. Because of its high level of transcription, the EF-1alpha promoter has been utilised to drive exogenous gene expression in transfected cells. In this study, we identified and characterised the ef-1alpha locus of Babesia bovis, a causative agent of bovine babesiosis, and examined the transcriptional activity of the EF-1alpha promoter. The ef-1alpha locus in the T2Bo strain of B. bovis contains two identical ef-1alpha genes ('A' and 'B') arranged in a head to head orientation and separated by a 1.4 kb intergenic (IG) region containing a 260 bp terminal inverted repeat. Both ef-1alpha genes encode identical proteins with 448 amino acids and a calculated molecular mass of 49 kDa. While the B. bovis ef-1alpha-IG sequence is conserved among multiple strains of B. bovis, it is not significantly related to any regulatory sequence in the DNA databases. The IG region promotes expression of both ef-1alpha genes. Both fragment Ig-A containing 730 bp upstream of ef-1alpha open reading frame A and fragment Ig-B containing 720 bp upstream of ef-1alpha open reading frame B were able to promote luciferase in transient transfection. In the 5' to 3' orientation, the Ig-B fragment resulted in the highest level of luciferase activity, 10 times higher than positive control plasmid p40-15-luc containing the rap-1 IG region, suggesting that this fragment contains a very strong promoter. Analysis of ef-1alpha transcripts confirms that both ef-1alpha genes are transcribed in merozoites. Interestingly, in contrast to other related intra-erythrocytic apicomplexans, the ef-1alpha locus of B. bovis contains a 160 bp intron in the 5' untranslated region.