Molecular detection and identification of Babesia bovis and Trypanosoma spp. in one-humped camel (Camelus dromedarius) breeds in Egypt.

BACKGROUND AND AIM: Camels are a unique source of milk and meat, which helps recover from several diseases that affect humans worldwide. In Egypt, one of the great obstacles for this industry is tick-borne diseases. This study aimed to characterize blood parasite infections, such as Babesia (B.) bovis and Trypanosoma (T.) spp. in one-humped camel (Camelus dromedarius) (n=142) breeds in Halayeb and Shalateen, Egypt, through phylogenetic analysis. MATERIALS AND METHODS: The prevalence of B. bovis and Trypanosoma spp. was identified in camels using polymerase chain reaction (PCR) assays targeting the Rhoptry-Associated Protein-1 and internal transcribed spacer 1 genes, respectively. A nested PCR technique was conducted to detect B. bovis. At the same time, KIN multispecies PCR assay was employed to diagnose and classify trypanosome DNA in camels. RESULTS: B. bovis was detected in 4/142 camels with an infection rate of 2.81%. Sequencing and phylogenetic analyses revealed that the strain of B. bovis isolated from this population was closely related to strains isolated from Argentine, the United States, and Brazil. Moreover, Trypanosoma evansi was detected in 8/142 camels with an infection rate of 5.63%. Sequencing and phylogenetic analyses revealed that this isolated strain T. evansi was closely related to Trypanosoma theileri detected from cattle in Brazil. CONCLUSION: The obtained data indicated the existence of B. bovis and T. evansi in camels from two provinces of Egypt. The obtained findings have economic significance and reflect the importance of implementing effective prevention and control methods across Egypt to reduce the incidence of B. bovis and T. evansi in camels.

Genetic characterization and phylogenetic analysis of Fasciola species based on ITS2 gene sequence, with first molecular evidence of intermediate Fasciola from water buffaloes in Aswan, Egypt.

Fasciolosis is an important food and water-borne parasitic infection caused by the two trematode species, Fasciola hepatica, and F. gigantica. The present study aimed to identify the phenotypic features and genetic characterization of adult fasciolid that infecting buffaloes were studied in Aswan, Egypt. The genetic identity of Fasciola species was investigated by the analysis of forward and reverse sequences of the ITS-2 of the rDNA gene. The Fasciola isolates were obtained from sheep, buffaloes, and cows in the regions of Aswan. The sequence of ITS2 gene isolates obtained from the present investigation were compared with GenBank reference sequences of F. hepatica, F. gigantica, and intermediate Fasciola. The obtained results were based on morphometric and genetic data which revealed the existence of F. gigantica, F. hepatica, and an intermediate form of Fasciola. Several variable sites were encountered among the investigated isolates in the Aswan, that were compared with the Fasciola species acquiesced in Gene Bank. Furthermore, the relationships between Egyptian Fasciola and Fasciola spp. from various other nations were discussed in the study.

Morphologic and molecular identification of three macroscopic Sarcocystis species infecting domestic sheep (Ovis aries) and cattle (Bos taurus) in Egypt.

In a survey study on the macroscopic species of Sarcocystis infecting domestic sheep (Ovis aries) and cattle (Bos taurus) in Egypt, the macrosarcocysts of Sarcocystis gigantea and Sarcocystis medusiformis were detected in the carcasses of 33 domestic sheep out of a total of 250 (13.20%), whereas Sarcocystis hirsuta macrosarcocysts were found in 17 out of 150 cattle (11.33%) slaughtered at the municipal abattoirs of two different provinces in Egypt. The sarcocysts of each species were thoroughly described morphologically through gross inspection, histopathologic and transmission electron microscopic (TEM) examination. By TEM, S. gigantea primary cyst wall was 6-7.5 µm thick and had irregular highly branched cauliflower-like villar protrusions (VP).The VP contained microtubules (mt) and multiple electron dense granules (edg) that were dispersed inside the cores of the branched VP. Besides, the parasitophorous vacuolar membrane (PVM) had minute blister-like invaginations all over the entire surface of the sarcocyst. S. medusiformis cyst had a thin sarcocyst wall (~2 µm thick) as compared to that of S. gigantea. The cyst wall had trapezoidal or nearly pyramidal VP that were surrounded by thick PVM in addition to a ground substance GS that contained electron-dense fine particles. S. hirsuta sarcocyst wall was 7-9 µm thick and possessed rhomboid-shaped VP that contained microtubules (mt) and electron-dense granules (edg) of variable sizes. The edg were arranged in rows and running parallel to the longitudinal axis of the protrusions. The VP had characteristic narrow neck-like constrictions at their bases, dilated middle portions, and tapered distal ends. The detected macrosarcocysts were eventually confirmed by molecular characterization on the levels of 18S rRNA, 28S rRNA, and Cox1 sequences. Phylogenetic analyses based on the sequences of the 18S rRNA and Cox1 genetic markers gave rise to robust associations of the currently identified isolates of S. gigantea, S. medusiformis, and S. hirsuta within a major clade of Sarcocystis species with felines as presumed or known definitive hosts.

Identification and Characterization of P0 Protein as a Vaccine Candidate Against Babesia divergens, Blood Parasite of Veterinary and Zoonotic Importance.

The molecular identification and antigenic characterization of P0 protein in Babesia divergens, a blood parasite of veterinary and zoonotic importance, were carried out in this study for use in developing subunit vaccines against B. divergens infection. Recombinant protein encoding P0 (BdP0) was developed in Escherichia coli, and its antiserum was generated in mice for further molecular characterization. Anti-rBdP0 serum had a specific interaction with the corresponding legitimate B. divergens protein, as confirmed by Western blotting and indirect fluorescent antibody tests. ELISA was used to assess the immunogenicity of BdP0 in a group of 68 bovine field samples, and significant immunological reactivity was found in 19 and 20 positive samples of rBdp0 and B. divergens lysate, respectively. The in vitro growth of B. divergens cultures treated with anti-rBdP0 serum was significantly inhibited (p < 0.05). Furthermore, after 6 h of incubation with 2 mg/ml anti-rBdP0 serum, the ability of pre-incubated free merozoites to invade bovine erythrocytes was reduced by 59.88%. The obtained data suggest the possible use of rBdP0 as diagnostic antigen and may serve as a vaccine candidate against babesiosis caused by B. divergens either in animal or human.